WO2015113256A1 - Uplink control channel transmission method, device and system - Google Patents
Uplink control channel transmission method, device and system Download PDFInfo
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- WO2015113256A1 WO2015113256A1 PCT/CN2014/071770 CN2014071770W WO2015113256A1 WO 2015113256 A1 WO2015113256 A1 WO 2015113256A1 CN 2014071770 W CN2014071770 W CN 2014071770W WO 2015113256 A1 WO2015113256 A1 WO 2015113256A1
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- downlink
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- downlink data
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- 230000005540 biological transmission Effects 0.000 title claims abstract description 77
- 238000001514 detection method Methods 0.000 claims abstract description 113
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- 230000008569 process Effects 0.000 description 6
- 238000005516 engineering process Methods 0.000 description 5
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/18—Automatic repetition systems, e.g. Van Duuren systems
- H04L1/1829—Arrangements specially adapted for the receiver end
- H04L1/1861—Physical mapping arrangements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
Definitions
- the embodiments of the present invention relate to communication technologies, and in particular, to an uplink control channel transmission method, apparatus, and system. Background technique
- LTE Long Term Evolution
- UE user equipment
- PDSCH Physical Downlink Shared Channel
- HARQ Hybrid Automatic Repeat Request
- PUCCH Physical Uplink Control Channel
- PUSCH Physical Uplink Shared Channel
- the acknowledgement (Acknowledgment, ACK for short) and the negative acknowledgement (NACK) are respectively corresponding to whether the downlink data carried on the PDSCH is correctly received (ACK) or not correctly received (NACK) on the UE side. .
- carrier aggregation is introduced in the LTE-Advanced Evolution and Enhancement System (LTE-A).
- LTE-A LTE-Advanced Evolution and Enhancement System
- the technology aggregates the spectrums of two or more Component Carriers (CCs) together to obtain a wider transmission bandwidth.
- CCs Component Carriers
- the existing CA technology (Evolved Node B, eNodeB for short) configures a primary cell (Primary Cell, PCell for short) and a secondary cell (SCell) for the UE.
- the UE uses the HARQ-ACK information carried on the PUCCH for all services.
- the downlink data carried on the PDSCH transmitted in the downlink subframe of the serving cell (including the PCell and the SCell) is fed back, and the HARQ-ACK information is transmitted only on the uplink carrier of the PCell.
- a large number of UEs can select the uplink carrier of the PCell to perform HARQ-ACK feedback, so that the uplink carrier of the PCell transmits the PUCCH.
- the load is too heavy, especially when the PCell's uplink carrier When the number of carriers is small and the carrier bandwidth is small, the uplink carrier of the PCell may not be able to carry the uplink data transmission of the PUSCH channel.
- the embodiment of the invention provides a method, a device and a system for transmitting an uplink control channel, so as to solve the problem that the UE only feeds the HARQ-ACK information on the PUCCH of the PCell, causing the uplink of the PCell to be overloaded.
- An embodiment of the present invention provides an uplink control channel transmission method, including:
- the first uplink carrier Determining, by the first uplink carrier, the first uplink carrier and the second uplink carrier, where the first uplink carrier corresponds to the first uplink carrier and the second uplink carrier, where the second uplink carrier is used to send the hybrid automatic repeat request (HARQ-ACK) Corresponding to the second cell;
- HARQ-ACK hybrid automatic repeat request
- the downlink carrier includes a first downlink carrier that belongs to the first cell and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell.
- the downlink data is a first type of downlink data or a second type of downlink data
- the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by a physical downlink control channel PDCCH or a PDCCH for releasing a downlink semi-persistent scheduling SPS.
- the second type of downlink data is a PDSCH without PDCCH scheduling;
- , include:
- the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where the first format is a PUCCH format 3 ;
- the format of the PUCCH is a second format, and the second format is a PUCCH format la or a PUCCH format lb.
- the embodiment of the present invention provides an uplink control channel transmission method, including: configuring, for a user equipment UE, a physical medium that sends a hybrid automatic repeat request HARQ-ACK feedback information. a first uplink carrier and a second uplink carrier of the uplink control channel PUCCH, where the first uplink carrier corresponds to the first cell, and the second uplink carrier corresponds to the second cell;
- the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or belongs to a second downlink carrier of the second cell and/or at least one downlink carrier belonging to another cell, where the downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physical downlink control channel a PDCCH scheduled physical downlink shared data channel PDSCH or a PDCCH that releases a downlink semi-persistent scheduling SPS, and the second type of downlink data is a PDSCH without PDCCH scheduling;
- an embodiment of the present invention provides a user equipment UE, including:
- a carrier determining module configured to determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, The second uplink carrier corresponds to the second cell, and the detecting module is configured to detect downlink data to obtain a detection result on the downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or belongs to the second cell.
- the downlink data is a first type of downlink data or a second type of downlink data
- the first type of downlink data is a physics scheduled by a physical downlink control channel PDCCH.
- PDCCH physical downlink control channel
- PDSCH downlink shared data channel
- PDCCH PDCCH that releases a downlink semi-persistent scheduling SPS
- the second type of downlink data is a PDSCH without PDCCH scheduling
- a resource determining module configured to determine, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH;
- the resource determining module is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format,
- the first format is PUCCH format format 3;
- an embodiment of the present invention provides a network device, including:
- a carrier configuration module configured to configure, for the user equipment UE, a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first a cell, where the second uplink carrier corresponds to the second cell;
- a sending determining module configured to send downlink data to the UE by using a downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, where the downlink carrier includes a first downlink that belongs to the first cell.
- the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data
- a detecting module configured to detect, according to the determined PUCCH resource, the HARQ-ACK feedback information sent by the UE on an uplink carrier.
- an embodiment of the present invention provides a user equipment UE, including:
- a processor configured to determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, where The second uplink carrier corresponds to the second cell, and the downlink data is detected on the downlink carrier, where the downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or Or at least one downlink carrier belonging to another cell, the downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by a physical downlink control channel PDCCH or And releasing the PDCCH of the downlink semi-persistent scheduling SPS, where the second type of downlink data is a PDSCH without PDCCH scheduling; determining, according to the detection result, a format of the PUCCH that sends the HARQ
- the processor is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where The first format is the PUCCH format format 3; if the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, Determining the PUCCH that sends the HARQ-ACK feedback information
- the format is the second format, and the second format is PUCCH format la or PUCCH format lb o
- an embodiment of the present invention provides a network device, including:
- a processor configured to configure, for the user equipment UE, a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell
- the second uplink carrier corresponds to the second cell
- the transmitter is configured to send downlink data to the UE by using a downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or belongs to the second cell.
- the second downlink carrier and/or the at least one downlink carrier belonging to the other cell, the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is scheduled by the physical downlink control channel PDCCH.
- Physical downlink shared data channel PDSCH or PDCCH that releases downlink semi-persistent scheduling SPS, and the second type of downlink data is PDSCH without PDCCH scheduling;
- the processor is further configured to: determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, and detect, according to the determined PUCCH resource, the HARQ-ACK sent by the UE on an uplink carrier. Feedback.
- an embodiment of the present invention provides an uplink control channel transmission system, including: a user equipment UE and a network device, where the UE adopts the UE in the third aspect, and the network device adopts the network in the fourth aspect. device.
- the embodiment of the present invention provides an uplink control channel transmission system, including: a user equipment UE and a network equipment, where the UE adopts the UE according to the fifth aspect, and the network equipment uses the network described in the sixth aspect. device.
- the uplink control channel transmission method, device, and system by transmitting HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier by the UE, feedback on downlink data of multiple cells, and reducing uplink
- the carrier load dynamically determines the transmission format and resources of the PUCCH through the eNodeB's downlink data scheduling in each Cell. This mechanism can reasonably allocate the transmission resources of the PUCCH format 3 channel and improve the system communication performance.
- Embodiment 1 is a flowchart of Embodiment 1 of an uplink control channel transmission method according to the present invention
- Embodiment 2 is a flowchart of Embodiment 2 of an uplink control channel transmission method according to the present invention
- Embodiment 3 is a flowchart of Embodiment 3 of an uplink control channel transmission method according to the present invention.
- Embodiment 4 is a flowchart of Embodiment 4 of an uplink control channel transmission method according to the present invention.
- Embodiment 5 is a flowchart of Embodiment 5 of an uplink control channel transmission method according to the present invention.
- Embodiment 6 is a flowchart of Embodiment 6 of an uplink control channel transmission method according to the present invention.
- Embodiment 7 is a flowchart of Embodiment 7 of an uplink control channel transmission method according to the present invention.
- Embodiment 8 is a schematic structural diagram of Embodiment 1 of a UE according to the present invention.
- Embodiment 9 is a schematic structural diagram of Embodiment 2 of a UE according to the present invention.
- Embodiment 1 of a network device according to the present invention.
- FIG. 11 is a schematic structural diagram of Embodiment 2 of a network device according to the present invention.
- FIG. 12 is a schematic structural diagram of Embodiment 3 of a UE according to the present invention.
- FIG. 13 is a schematic structural diagram of Embodiment 4 of a UE according to the present invention.
- FIG. 14 is a schematic structural diagram of Embodiment 3 of a network device according to the present invention.
- FIG. 15 is a schematic structural diagram of an embodiment of an uplink control channel transmission system according to the present invention. detailed description
- the UE sends on the uplink carrier of the Pcell.
- the power control command words transmitted by the PUCCH and PUCCH channels are all from the information of the TPC command field of the PUCCH in the PDCCH on the Pcell.
- the power control message carried in the TPC command word of the PUCCH of the network device does not distinguish whether the UE transmits the PUCCH in the format la/lb or PUCCH format 3.
- the UE adjusts the PUCCH transmission power according to different transmission formats when using the TPC command word. Reflects a certain transmission power deviation.
- the PUCCH channel may also be transmitted on the other one or more Scells other than the Pcell, that is, the PUCCH channel is carried on the Scell, and the Cell that can carry the PUCCH channel except the Pcell is called PUCCH- Scell.
- the UE detects the PDSCH transmission only on the downlink carrier of the Pcell, the UE uses the PUCCH format la/lb to reply the HARQ-ACK, the PUCCH format la/lb transmission resource and the scheduling PDSCH.
- the PDCCH resource location corresponds to the SPS feedback resource configured on the Pcell.
- the UE uses the PUCCH format 3 to feed back the HARQ-ACK, PUCCH format 3
- the resource is indicated by the eNodeB through the information of the TPC command field of the PDCCH of the Scell, and may be on the uplink carrier of the PUCCH-Scell, so as to achieve the purpose of offloading the PUCCH load in the Pcell.
- the power control command words of the PUCCH channel of the PUCCH format la/lb and the PUCCH channel of the PUCCH format 3 are all from the TPC command field in the PDCCH on the Pcell, if the eNodeB is in the downlink of the Pcell and other cells other than the Pcell The downlink data is transmitted on the carrier for the UE. However, after the UE arrives, the UE does not detect the data on the downlink carrier of the other cell except the Pcell. In this case, the UE may mistake the eNodeB for the downlink carrier only on the Pcell. There is data transmission and PUCCH format la/lb feedback HARQ-ACK is used on the uplink carrier of the Pcell.
- the TPC command field of the PUCCH in the PDCCH of the Pcell (including the PDCCH for scheduling the PDSCH or the PDCCH carrying the downlink control information (DCI) format 3/3A) is originally used to adjust the PUCCH on the PUCCH-Scell.
- the transmit power of the UE uses the power control message to adjust the transmit power of the PUCCH channel of the PUCCH format la/lb on the Pcell, which results in the wrong control of the PUCCH transmit power.
- the technical solution of the present invention is that the UE can transmit the PUCCH channel on other uplink carriers except the Pcell, and dynamically determine the transmission format and the resource index of the PUCCH by using the scheduling condition of the downlink data of each of the eNodeBs, and separately determine the transmission format and the resource index of the PUCCH. Control the transmit power of the PUCCH on the uplink carrier of the cell in which the cell is located.
- the mechanism can reasonably allocate the transmission resources of the PUCCH channel, solve the problem of PUCCH power control error, and solve the problem that the uplink carrier PUCCH of the Pcell is overloaded, and at the same time ensure the performance of the PUCCH channel transmission.
- FIG. 1 is a flowchart of Embodiment 1 of an uplink control channel transmission method according to the present invention.
- the method in this embodiment may include: Step 101: Determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information.
- the execution body of this embodiment may be a UE.
- the first uplink carrier corresponds to the first cell
- the second uplink carrier corresponds to the second cell
- the UE determines which is the first uplink carrier, where is the second uplink carrier, and the first cell corresponding to the first uplink carrier
- the second cell corresponding to the second uplink carrier can accurately acquire the PUCCH resource that sends the HARQ-ACK feedback information in subsequent operations.
- Step 102 Detect downlink data on a downlink carrier to obtain a detection result.
- the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell, where the downlink data is
- the downlink data of the first type is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH releasing the downlink semi-persistent scheduling SPS, and the second type of downlink data.
- the UE detects the detection result obtained by the downlink data on the downlink carrier, whether the UE detects whether the downlink data transmission and/or the detected downlink data transmission are detected on the downlink carrier. The transmission is correct.
- the eNodeB configures the PCell and the SCell for the UE.
- the UE transmits the downlink subframes of all the SCs (including the PCell and the SCell) through the HARQ-ACK information carried on the PUCCH.
- the downlink data carried on the PDSCH is fed back.
- downlink data is carried on multiple downlink carriers in one subframe, and the UE only feeds back HARQ-ACK information on the PUCCH of the PCell, and two new 3GPP protocols are added.
- PUCCH format to support carrier aggregation One is PUCCH format lb with channel selection: Use 2-bit HARQ-ACK information carried by PUCCH format lb, and then determine HARQ by channel selection - PUCCH resource of ACK information, this format only supports scenarios of no more than 4 bits of HARQ-ACK information and no more than 2 SCs; another is PUCCH format 3: can support up to 5 SCs and UEs in each SC In the scenario of Multiple-Input Multiple-Output (MIMO), PUCCH format 3 can also support two SC scenarios, specifically PUCCH format 3 or PUCCH format lb wi. The th channel selection depends on the configuration of the eNodeB.
- MIMO Multiple-Input Multiple-Output
- the UE detects downlink data sent by the network device on the downlink carrier.
- the data sent by the network device may be sent from the first downlink carrier of the first cell, or may be second.
- the second downlink carrier of the cell may be sent on the downlink carrier of the other cell, where other cells refer to cells other than the first cell and the second cell, because the UE does not determine that the downlink data specifically passes. Which downlink carrier is transmitted, so the UE needs to perform detection on each downlink carrier to prevent data loss.
- the UE detects that the downlink data sent by the network device is divided into two types on the downlink carrier, and the first type is a PDSCH with a physical downlink control channel (PDCCH) scheduling or a downlink semi-static scheduling (Semi Persistent Schedulingv).
- the PDCCH of the abbreviated SPS the former can be considered as a dynamic scheduling state, each time the network device sends the downlink data, the resource information of the PDSCH is carried on the PDCCH of the downlink carrier, and the latter network device sends the downlink information to the UE when the downlink SPS is activated.
- a PDCCH informing the UE that the network device periodically transmits the PDSCH on a fixed resource in a subsequent period of time, and then the network device sends a PDCCH to the UE when the downlink SPS is released, and the UE is notified that the downlink SPS scheduling mode ends.
- the UE needs to feed back the reception result, that is, the HARQ-ACK feedback information.
- the other type is the PDSCH without PDCCH scheduling.
- SPS scheduling the network device has pre-allocated PDSCH resources when activating the downlink SPS, because During the subsequent period of time, the network device periodically uses the same resource to send downlink data. At this time, the UE also detects downlink data at a fixed location, and the PDSCH in this process does not need to be additionally scheduled through the PDCCH. The UE also feeds back the HARQ-ACK information to the network device.
- Step 103 Determine, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of the PUCCH.
- the UE detects downlink data on the downlink carrier, that is, the UE may detect downlink data on the downlink carrier of other cells, or only detects on the first downlink carrier and/or the second downlink carrier. Downstream data.
- the UE determines the format and resource index of the PUCCH for transmitting the HARQ-ACK feedback information, where the uplink carrier carrying the PUCCH includes the first uplink carrier belonging to the first cell and/or belongs to the second
- the second uplink carrier of the cell that is, after receiving the downlink data on the downlink carrier of the first cell, the second cell, and/or other cells, the UE may have two uplinks for transmitting HARQ-ACK feedback information.
- the first uplink carrier of the first cell and the second uplink carrier of the second cell, and the corresponding PUCCH format and resource index may be determined on the two uplink carriers, so that the HARQ-ACK feedback is carried on the PUCCH resource. information.
- the UE sends the HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier, so as to feedback the downlink data of multiple cells, and reduce the load of the uplink carrier, and the eNodeB is downlinked in each cell.
- the data scheduling situation and the indication dynamically determine the transmission format and resources of the PUCCH, and the transmission resource of the PUCCH format 3 channel can be reasonably allocated by using the mechanism, thereby improving the communication performance of the system.
- the step 103 of the foregoing method embodiment determines, according to the detection result, the format of the PUCCH that sends the HARQ-ACK feedback information, and the resource of the PUCCH.
- the specific implementation method may be: And determining, by the at least one downlink carrier that belongs to another cell, the downlink data, determining that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where the first format is a PUCCH format format 3; And detecting the downlink data on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determining to send the HARQ-ACK feedback information.
- the format of the PUCCH is the second format, and the second format is the PUCCH format format la or format lb.
- the PUCCH that sends the HARQ-ACK feedback information will be sent regardless of whether downlink data is detected on the first downlink carrier and the second downlink carrier.
- the format is determined to be PUCCH format 3; if the UE detects the downlink data only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, the UE will send the HARQ-ACK feedback information.
- the format of the PUCCH is determined to be PUCCH format la or PUCCH format lb. This is the principle that the UE needs to follow when determining the format of the PUCCH. This is also a pre-agreed agreement between the UE and the network device.
- the method further includes receiving resource configuration information, and determining, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3. Specifically, after receiving the resource configuration information configured by the network device, the UE can learn whether the network device configures the PUCCH format 3 resource according to the resource configuration information, and whether the PUCCH format can be used when transmitting the HARQ-ACK feedback information. 3 format.
- Embodiment 2 is a flowchart of Embodiment 2 of an uplink control channel transmission method according to the present invention. As shown in FIG. 2, the method in this embodiment may include:
- Step 201 Detect downlink data on at least one downlink carrier that belongs to another cell.
- the execution entity of this embodiment is a UE.
- the UE detects the downlink data sent by the network device on the downlink carrier that belongs to the other cell, and does not limit whether the UE detects the data on the first downlink carrier and the second downlink carrier.
- At least one downlink carrier that belongs to another cell indicates that the downlink data detected by the UE may be a downlink carrier of another cell, or may be a downlink carrier of other multiple cells, which is not specifically limited herein.
- Step 202 Determine, according to the downlink carrier and the downlink data of the detected downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
- the UE detects the downlink data on the downlink carrier of the other cell, where the downlink data generally refers to the PDSCH scheduled by the PDCCH.
- the UE determines that the format of the PUCCH that sends the HARQ-ACK feedback information is The PUCCH format 3, the first solution includes: determining, according to the PUCCH format 3 resource pre-configured by the network device, all of the first cell and the second cell that are available to send the HARQ-ACK feedback information a PUCCH format 3 resource; acquiring and transmitting the HARQ according to information of a Transmission Power Control (TPC) command field in the PDCCH of the PDSCH detected by the at least one downlink carrier that belongs to another cell - Resource index of the PUCCH of the ACK feedback information.
- TPC Transmission Power Control
- the network device configures at least two available PUCCH format 3 resources for the UE in advance, and the UE determines the available resource indexes of the PUCCHs according to the configuration information of the network devices, and then according to the scheduling detected on the downlink carriers of other cells.
- the information in the PDCCH of the PDSCH determines the resource index of the PUCCH.
- the information is specifically the information of the TPC command field in the PDCCH.
- the field is a multiplexing field, which can be used as uplink power control information or as resource index information in the PUCCH.
- the field is used as the resource indication, and the PUCCH resource corresponding to the resource index of the PUCCH may be the first uplink carrier or the second uplink carrier, and the UE also determines the information according to the TPC command field.
- the uplink carrier that transmits the PUCCH.
- the downlink carrier can be used.
- the detection result of the data is fed back to the network device through the PUCCH resource. It should be noted that if the UE detects downlink data only on the downlink carrier of other cells, only the corresponding bit needs to be in the PUCCH format 3.
- the UE fills in the detection result of all the downlink carriers in the corresponding The bit is fed back to the network device, so that only one PUCCH resource is needed to carry all the detection results, which reduces the feedback occupation compared with the feedback of the PUCCH format 3 on the first uplink carrier and the second uplink carrier. Resources also improve the performance of PUCCH foramt 3.
- the UE sends the PUCCH format 3 on the first uplink carrier or the second uplink carrier to feed back the downlink data of the multiple cells, which not only reduces the load of the uplink carrier, but also solves the problem that the UE is only in the PCell in the prior art.
- the feedback of the HARQ-ACK information on the PUCCH causes the PCell's uplink carrier to be overloaded, and the multiple information is improved by one PUCCH resource feedback.
- FIG. 3 is a flowchart of Embodiment 3 of a method for transmitting an uplink control channel according to the present invention. As shown in FIG. 3, the method in this embodiment may include:
- Step 301 Detecting downlink data on the first downlink carrier and the second downlink carrier, and detecting downlink data on downlink carriers belonging to other cells;
- the execution body of this embodiment is a UE.
- the detecting, by the UE, the downlink data on the first downlink carrier and the second downlink carrier includes: detecting, on the first downlink carrier, the first type of downlink data that is sent by the network device, where the second downlink carrier is Detecting the first type of downlink data that is sent by the network device, or detecting, on the first downlink carrier, the second type of downlink data that is sent by the network device, and detecting, on the second downlink carrier, The second type of downlink data that is sent by the network device; or the first type of downlink data that is sent by the network device is detected on the first downlink carrier, and the network device is sent to the second downlink carrier.
- the second type of downlink data is detected on the first downlink carrier, and the second type of downlink data sent by the network device is detected on the first downlink carrier, and the network device sends the detected on the second downlink carrier.
- the first type of downlink data In addition, the UE does not detect downlink data on the downlink carriers of any other cell.
- Step 302 Receive scheme configuration information sent by the network device, and determine, according to the scheme configuration information, whether the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH are determined by using the second scheme.
- the network according to the situation that the UE detects the downlink data, there may be two methods for determining the format of the PUCCH and the resource index of the PUCCH. This embodiment is one of the methods, and whether the UE adopts the method of the embodiment, the network The device notifies the UE, that is, sends the scenario configuration information to the UE, and then the UE determines, according to the scenario configuration information, which scheme is adopted to determine the format of the PUCCH and the resource index of the PUCCH.
- step 302 may not be a necessary step, and an implementation method of the present invention is indicated herein, and is not limited to other forms of implementation.
- Step 303 Determine, according to the downlink carrier and the downlink data of the detected downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
- the UE determines, by using the second scheme, the format of the PUCCH that sends the HARQ-ACK feedback information, and the resource of the PUCCH.
- the second solution includes:
- the method further includes: in the first cell, according to the first The PDCCH in the downlink-like data determines a PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier, or at least one that is configured on the first uplink carrier according to a network device is available. And the information about the TPC command field in the PDCCH indicating the detection of the downlink SPS and the latest TPC command field in the PDCCH indicating the downlink SPS activation is determined to be used to send the HARQ on the first uplink carrier.
- the PUCCH resource, or at least one of the second uplink carriers configured according to the network device, may be used to feed back the detection result of the second type of downlink data.
- PUCCH resources and said latest information indicating the downlink SPS activation PDCCH in the TPC command field is determined on the second uplink carrier may be configured to send the HARQ-ACK The PUCCH resource of the feedback information.
- the UE may feed back the detection result by using the format of the PUCCH format lb, and the specific format may be PUCCH format lb with channel selection, and then
- the UE determines, according to the pre-configured channel selection scheme of the network device, which uplink carrier is finally sent the PUCCH format lb, and the content of the channel selection scheme is specified in the 3GPP protocol.
- Step 1 The UE determines a PUCCH resource that can be used to send HARQ-ACK feedback information according to Table 1 and the foregoing method.
- Table 1 is a mapping table of TB and HARQ-ACK feedback information, where the PUCCH resource is the first uplink of the first cell.
- Table 1 is an example, and other forms of tables can be designed according to the same principle.
- HARQ-ACKG indicates that the TB corresponding to the first cell or the second cell needs to be performed.
- the HARQ-ACK is fed back. Therefore, according to the maximum number of TB blocks supported by the transmission mode configured in each cell, it is possible to determine how many PUCCH resources are available for transmitting HARQ-ACK feedback information.
- the first control channel element of the PDCCH of the PDSCH The sequence number of the CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS is a parameter corresponding to the carrier configured by the network device; if the UE detects the second type of downlink
- the UE can acquire PUCCH resources corresponding to the downlink data in the first cell and the second cell. It should be noted that, in the second scheme, the method for the UE to acquire the PUCCH resources corresponding to the downlink data in the first cell and the second cell is not limited to the foregoing method.
- Step 2 The UE determines the PUCCH resource that finally sends the HARQ-ACK feedback information according to Table 2 - Table 4 and the result of detecting the downlink data.
- Table 2 shows the channel selection configuration table when A is 2
- Table 3 shows the channel selection configuration when A is 3.
- Table, Table 4 is a channel selection configuration table when A is 4.
- PUCCH format lb in two HARQ-ACK bits may be bits 3 ⁇ 4, (1) fill 1,1, transmitting HARQ-ACK feedback information via the PUCCH resources corresponding to the first cell TB2; if the UE detects the first The TBI and TB2 of the cell and the TBI of the second cell, and the TBI and TB2 of the first cell are correctly verified, and the TBI check of the second cell is incorrect.
- two of the PUCCH format lbs can be
- the HARQ-ACK bit is 3 ⁇ 4 , «filled in 1,1, and the first small ⁇ ⁇ 3 ⁇ 4 ⁇ ⁇ IN ⁇ 3 ⁇ 4R small ⁇ ⁇ rrv ⁇ 3 ⁇ 4? ⁇ . ⁇ ⁇ from ⁇ r ⁇ rrv ⁇ 3 ⁇ 4 ?
- the source cable I has been calculated by the above method.
- the UE sends the PUCCH format lb on the first uplink carrier or the second uplink carrier by using the channel selection scheme, so as to feedback the downlink data of multiple cells, which not only reduces the load of the uplink carrier, but also solves the UE in the prior art.
- the feedback of the HARQ-ACK information on the PUCCH of the PCell only causes the uplink load of the PCell to be overloaded, and the multiple downlink information is combined with the HARQ-ACK feedback information to feed back the detection result of the downlink data to the network.
- the device improves transmission performance.
- Embodiment 4 is a flowchart of Embodiment 4 of an uplink control channel transmission method according to the present invention. As shown in FIG. 4, the method in this embodiment may include:
- Step 401 Detect a first type of downlink data on the first downlink carrier.
- the execution body of this embodiment is a UE.
- the UE detects the first type of downlink data on the first downlink carrier, that is, the UE detects the PDSCH scheduled by the PDCCH or releases the PDCCH of the downlink half SPS on the first downlink carrier of the first cell, where the two types of data are used.
- the UE needs to feed back the detection result to the network device.
- Step 402 Determine, according to the first downlink carrier and the first type of downlink data, a format of a PUCCH that sends HARQ-ACK feedback information, and a resource index of the PUCCH.
- the UE detects the first type of downlink data, and uses the third scheme to determine the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
- the third solution includes:
- the format of the PUCCH that sends the HARQ-ACK feedback information is a third format or a second format, where the third format is a PUCCH format la,
- the second format is PUCCH format lb;
- the UE may pass PUCCH format la or PUCCH.
- the format of the format lb is used to feed back the detection result, and the PUCCH resource used by the UE to feed back the detection result is related to the number of antennas.
- the resource index of the PUCCH corresponding to the first antenna port is obtained by the formula (1), and the n c CE of this embodiment is obtained.
- the resource index of the PUCCH corresponding to the second antenna port is obtained by the calculation of equation (2).
- the UE detects the first type of downlink data on the first downlink carrier, and performs feedback on the PUCCH resource on the first uplink carrier.
- the UE detects that the network device sends the first type of downlink data on the second downlink carrier, and determines, according to the second downlink carrier and the first type of downlink data, that the HARQ is sent by using the third scheme.
- the format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH are the format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH.
- FIG. 5 is a flowchart of Embodiment 5 of the method for transmitting an uplink control channel according to the present invention. As shown in FIG. 5, the method in this embodiment may include:
- Step 501 A second type of downlink data is detected on the first downlink carrier.
- the execution body of this embodiment is a UE.
- the UE detects the second type of downlink data on the first downlink carrier, that is, the PDSCH without the PDCCH scheduling.
- the PDSCH is the downlink data sent by the downlink SPS scheduling mode, and the network device sends the PDCCH only when the downlink SPS is activated.
- the PDCCH is transmitted again until the downlink SPS is released.
- the resources used by the PDSCH are all scheduled by the PDCCH sent when the downlink SPS is activated last time, and the resources are relatively fixed.
- Step 502 Determine, according to the first downlink carrier and the second type of downlink data, a format of a PUCCH that sends HARQ-ACK feedback information, and a resource index of the PUCCH.
- the UE detects the second type of downlink data, and uses the fourth scheme to determine the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
- the fourth solution includes:
- the format of the PUCCH that sends the HARQ-ACK feedback information at least on the first uplink carrier or the second uplink carrier configured according to a network device
- the information of the PUCCH resource that can be used to feed back the detection result of the second type of downlink data and the latest one of the TPC command fields in the PDCCH indicating the downlink SPS activation determines the corresponding to the first antenna port First uplink carrier or the second uplink a resource index of the PUCCH of the row carrier and a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
- the UE may feed back the detection result in the format of the PUCCH format la or the PUCCH format lb, and the PUCCH resource used by the UE to feed back the detection result is also related to the number of antennas, and the UE is activated according to the latest network device.
- the information about the TPC command field in the PDCCH sent by the downlink SPS is combined with the PUCCH resource configured by the network device to be used for feeding back the detection result of the second type of downlink data on the first uplink carrier, and finally determining corresponding to the first antenna port and the second Resource index of the PUCCH of the antenna port.
- the UE detects the second type of downlink data on the first downlink carrier, and performs feedback through the PUCCH resource on the first uplink carrier.
- the UE detects, on the second downlink carrier, that the network device sends the second type of downlink data.
- the fourth scheme is used to determine to send the HARQ- The format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH.
- the format and resources of the PUCCH that send the HARQ-ACK feedback information are determined on the uplink carrier corresponding to the downlink carrier by using a corresponding scheme.
- the index is that the UE feeds back the first uplink carrier when the downlink data is detected by the first downlink carrier, and the UE feeds back the downlink data on the second downlink carrier, and the UE feeds back the second uplink carrier according to the type of the downlink data.
- the scheme for calculating the resource index of the PUCCH is different. Therefore, the UE does not need to focus on one uplink carrier for feedback, but performs load balancing. In the prior art, the UE only feeds back HARQ-ACK information on the PUCCH of the PCell, resulting in PCdl. The problem of excessive uplink load is increased, and the transmission performance is improved.
- the foregoing embodiment shown in FIG. 4 and FIG. 5 is that the UE detects downlink data only on the first downlink carrier or the second downlink carrier.
- the method is applicable to the UE in the first downlink carrier and the first The downlink data is simultaneously detected on the downlink carrier, and the UE performs feedback on the uplink carrier corresponding to the downlink carrier according to the type of the detected downlink data.
- the UE after determining the format of the PUCCH for transmitting the HARQ-ACK feedback information and the resource index of the PUCCH, the UE further needs the UE to determine the power control information of the PUCCH, and the implementation method is implemented.
- the method may be: if it is determined that the HARQ-ACK feedback information is sent on the first uplink carrier, acquiring the PUCCH according to the information of the TPC command field in the PDCCH on the first downlink carrier Power control information; And sending the HARQ-ACK feedback information on the second uplink carrier, and acquiring the power control information of the PUCCH according to the information of the TPC command field in the PDCCH on the second downlink carrier.
- the UE needs to perform power control on the PUCCH to ensure that the network device can receive the PUCCH and correctly decode the UE, and the UE performs power control.
- the PDCCH is the PDCCH for scheduling the PDSCH, or the PDCCH for the downlink SPS is released by the network device, if it is the second For downlink data, the PDCCH is the PDCCH indicating the downlink SPS activation of the nearest one.
- the UE determines on which uplink carrier to transmit HARQ-ACK feedback information, based on the information of the TPC command field in the PDCCH transmitted on the downlink carrier corresponding to the uplink carrier.
- the format of the PUCCH channel in which the UE determines the feedback HARQ-ACK by using the scheme is PUCCH format 3, PUCCH format la Or the PUCCH format lb
- the eNodeB controls the transmit power of the uplink carrier PUCCH of the corresponding cell by using the same TPC command word on the downlink carrier, and solves the problem of PUCCH power control error.
- FIG. 6 is a flowchart of Embodiment 6 of an uplink control channel transmission method according to the present invention. As shown in FIG. 6, the method in this embodiment may include:
- Step 601 Configure, for the user equipment UE, the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information.
- the execution body of this embodiment is a network device.
- the network device needs to configure, for the UE, which is the first uplink carrier, which is the second uplink carrier, and the first cell corresponding to the first uplink carrier and the second cell corresponding to the second uplink carrier, and the network device and the UE in subsequent operations.
- the PUCCH resource that sends the HARQ-ACK feedback information can be accurately obtained.
- Step 602 Send downlink data to the UE by using a downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information.
- the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell, where the downlink data is a type of downlink data or a second type of downlink data, wherein the first type of downlink data is The physical downlink shared data channel PDSCH of the physical downlink control channel PDCCH scheduling or the PDCCH that releases the downlink semi-persistent scheduling SPS, and the second type of downlink data is a PDSCH without PDCCH scheduling.
- the network device sends the downlink data to the UE, where the downlink carrier includes the first downlink carrier of the first cell, the second downlink carrier of the second cell, and the downlink carrier of the other cell, and the downlink data sent by the network device is classified into two types, one type is The PDSCH with the PDCCH scheduling or the PDCCH for releasing the downlink SPS, the former can be considered as the dynamic scheduling state.
- the network device sends the downlink data the resource information of the PDSCH is carried on the PDCCH of the downlink carrier, and the network device is activated in the downlink.
- the UE When the SPS sends a PDCCH to the UE, the UE is notified that the network device sends the PDSCH according to the fixed resource, and then the network device sends a PDCCH to the UE when the downlink SPS is released, and the UE is notified that the downlink SPS scheduling mode ends.
- One type is a PDSCH without PDCCH scheduling. It can be considered that this type of data is downlink SPS scheduling.
- the network device has pre-allocated PDSCH resources when activating the downlink SPS. Therefore, the network device will use the same resource for a later period of time. Send downlink data.
- the network device needs to determine the PUCCH resource that the UE feeds back the HARQ-ACK information for the downlink data after the downlink data is sent. For example, the network device sends the downlink data to the UE on the first downlink carrier and the second downlink carrier, where the UE is specifically located.
- the network device that sends the HARQ-ACK feedback information on the uplink carrier is not known. Therefore, the network device considers that the UE may send the HARQ-ACK feedback information on the first uplink carrier and the second uplink carrier, and therefore the PUCCH resource determined by the network device. That is, the first uplink carrier and the second uplink carrier are included.
- Step 603 Detect, according to the determined PUCCH resource, the HARQ-ACK feedback information sent by the UE on an uplink carrier.
- the uplink carrier includes a first uplink carrier that belongs to the first cell and/or a second uplink carrier that belongs to the second cell.
- the network device detects the HARQ-ACK feedback information sent by the UE according to the determined PUCCH resource that the UE may send the HARQ-ACK feedback information. Specifically, the network device detects the PUCCH resources on the determined PUCCH resources, where the PUCCH resources are at least One, as long as the UE detects any one of the two types of data on any carrier, it will feed back on one of the PUCCH resources, and the network device is responsible for detecting the feedback and parsing to determine the next step. Operation.
- the uplink carrier that the UE configured by the network device to send the HARQ-ACK feedback information includes the first uplink carrier and the second uplink carrier.
- the network device sends downlink data to the UE on the downlink carrier, and configures the UE to send the HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier to perform downlink data of multiple cells.
- the feedback reduces the load of the uplink carrier, and solves the problem that the UE only feeds the HARQ-ACK information on the PUCCH of the PCell in the prior art, causing the uplink load of the PCell to be overloaded, and improving the communication performance.
- the method further includes: pre-configuring, for the UE, the format of the PUCCH that sends the HARQ-ACK feedback information to be a PUCCH format format 3, and sending, by the UE, the PUCCH format 3 Channel resources.
- the network device pre-configures that the UE performs HARQ-ACK feedback according to the format of the PUCCH format 3, and allocates a channel resource for transmitting the PUCCH format 3 to the UE in advance, which is a pre-configured
- the UE may further adjust the resource for transmitting the PUCCH according to the PDCCH in the downlink data.
- the step 601 of the foregoing method embodiment sends the downlink data to the user equipment UE by using the downlink carrier, and determines the physical uplink control channel PUCCH resource that the UE can use to send the hybrid automatic repeat request HARQ-ACK feedback information
- the method may be: sending the downlink data to the UE by using the downlink carrier, and then determining that the downlink data is detected by the UE on the N 2 downlink carriers, determining that the N 3 types of the UE are available.
- step 602 of the foregoing method embodiment is based on the determined PUCCH the HARQ-ACK feedback information transmitted specific method of detecting the resource on the uplink carrier may be ufi3 ⁇ 4E: based on the determination that the UE N 3 species can be used for transmitting the HARQ-ACK of the feedback information in the PUCCH
- the resource detects the HARQ-ACK feedback information sent by the UE on an uplink carrier.
- the network device may send downlink data to the UE by using a downlink carrier, where the downlink carriers include a first downlink carrier, a second downlink carrier, and downlink carriers of other cells, and the number of each downlink carrier is indeterminate. It can be 0 or a natural number greater than 0, which is not specifically limited here.
- the network device then assumes that the UE actually detects the downlink data on the N 2 downlink carriers. For example, the network device sends the downlink data to the UE simultaneously on the first downlink carrier and the second downlink carrier, and the UE can be assumed to be only in the first Downlink data is detected on the line carrier. It can also be assumed that the UE detects downlink data on both downlink carriers.
- the network device assumes various detection results, and then determines that the UE can be used for sending according to the assumed situation.
- the PUCCH resource of the HARQ-ACK feedback information where N 2 ⁇ Ni , N 3 ⁇ .
- the network device detects the HARQ-ACK feedback information of the UE one by one according to the P1 ⁇ 4CH resource that the determined N ⁇ t UE can use to send the HARQ-ACK feedback information.
- the network device assumes that the UE detects the downlink data on the N 2 downlink carriers, thereby determining the PUCCH resource, and the network device does not necessarily need to detect every PUCCH resource when detecting, and the network device may appear. If the HARQ-ACK feedback information is detected in the first PUCCH resource, the detection does not need to be continued.
- the process of specifically detecting the HARQ-ACK feedback information is not specifically limited for the network device.
- FIG. 7 is a flowchart of Embodiment 7 of an uplink control channel transmission method according to the present invention. As shown in FIG. 7, the method in this embodiment may include:
- Step 701 The format of the PUCCH that is configured to send the HARQ-ACK feedback information to the UE is PUCCH format 3 and the channel resource of the PUCCH format 3 is sent by the UE.
- the execution body of this embodiment is a network device.
- the network device configures the channel resource for transmitting the PUCCH format 3 for the UE before starting the downlink scheduling. It should be noted that this is a pre-configured process. In the subsequent specific downlink data transmission process, the UE may further adjust the format of the PUCCH according to the PDCCH in the downlink data.
- Step 702 Configure, for the UE, a first uplink carrier and a second uplink carrier of the PUCCH that send the HARQ-ACK feedback information.
- the network device configures, for the UE, which of the first uplink carrier is used for transmitting the PUCCH, which is the second uplink carrier, and the first cell corresponding to the first uplink carrier and the second cell corresponding to the second uplink carrier, In subsequent operations, the network device and the UE can accurately acquire the PUCCH resource that sends the HARQ-ACK feedback information.
- Step 703 Send downlink data to the UE on the downlink carrier that belongs to the other cell, and carry the HARQ-ACK feedback by the UE in the information of the TPC command field in the PDCCH of the downlink data of the at least one downlink carrier belonging to the other cell.
- Resource index of PUCCH format 3 of information In this embodiment, the network device sends downlink data to the UE on at least one downlink carrier that belongs to other cells, where other cells are cells other than the first cell and the second cell, and the network device sends downlink data to the UE on other cells.
- the UE performs HARQ-ACK feedback through the PUCCH format 3, so the network device carries the UE in the information of the TPC command field in the PDCCH of the downlink data.
- a resource index of the PUCCH format 3 that sends the HARQ-ACK feedback information, where the resource index is a resource index on the first uplink carrier or the second uplink carrier, that is, the network device sends downlink data to the UE in other cells, ideally, the UE
- the downlink data is detected, and the HARQ-ACK feedback information is still sent through the first uplink carrier or the second uplink carrier.
- the network device sends downlink data to the UE on at least one downlink carrier that belongs to other cells.
- the network device may also be in the first downlink carrier and/or the second downlink carrier.
- the downlink data is sent to the UE, and is not specifically limited herein.
- Step 704 If the UE detects the downlink data on the downlink carrier that belongs to the other cell, the first scenario is used to determine that the UE sends the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier by using the PUCCH format 3. PUCCH resources;
- the network device assumes that the UE detects the downlink data on the downlink carrier of the other cell, and uses the first scheme to determine the PUCCH format 3 resource that the UE sends the HARQ-ACK feedback information.
- the first solution includes:
- the network device has carried the resource index of the PUCCH in the downlink data of the at least one downlink carrier that belongs to the other cell, that is, the information of the TPC command field in the PDCCH of the downlink data, and the network device further uses the TPC command field according to the TPC command field.
- the information determines the PUCCH resource that the UE sends the HARQ-ACK feedback information.
- Step 705 Detect, according to the determined PUCCH resource, HARQ-ACK feedback information sent by the UE on the uplink carrier.
- the network device detects the HARQ-ACK feedback information sent by the UE according to the PUCCH resource determined in step 704.
- the network device sends downlink data to the UE on downlink carriers of other cells.
- the information of the TPC command field in the PDCCH of the downlink data carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information, and specifies that the UE uses the first uplink carrier or the second uplink carrier, and the network device The feedback information of the UE is detected on the PUCCH resource.
- the network device further includes the UE in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier.
- Generating power control information of the PUCCH of the HARQ-ACK feedback information on the first uplink carrier; the TPC command field in the PDCCH in the downlink data on the second downlink carrier The information carries the power control information of the PUCCH in which the UE sends the HARQ-ACK feedback information on the second uplink carrier.
- the network device if the network device sends the first type of downlink data on the downlink carrier, the network device carries the power control information in the PDCCH for scheduling the PDSCH or the PDCCH for releasing the downlink SPS, and the network device sends the second type downlink data on the downlink carrier.
- the PDCCH in the downlink SPS is activated by the latest indication to carry the power control information.
- the network device does not send downlink data on the first downlink carrier or the second downlink carrier, but will be in the two downlinks.
- the PDCCH with the power control command is sent on the carrier, and the network device indicates the power control information to the UE through the PDCCH.
- the UE On which corresponding uplink carrier the UE sends the HARQ-ACK feedback information, which downlink carrier uses the TPC command field information of the PDCCH. Obtain the power control information of the PUCCH. It should be noted that, regardless of how the network device sends the downlink data to the UE, the power control information is indicated to the UE by using the foregoing method, which is not specifically limited herein. This solves the problem of possible PUCCH power control errors.
- the network device determines, according to the scenario that the UE detects the downlink data, the corresponding solution to determine the PUCCH resource that the UE sends the HARQ-ACK feedback information, specifically , there are several situations:
- the network device assumes that the downlink data is detected on the first downlink carrier and the second downlink carrier, and the downlink data is not detected on downlink carriers belonging to other cells. Then, the second solution is used to determine that the UE sends the PUCCH resource of the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier by using a PUCCH format lb.
- the second solution includes:
- the UE configured in the information to send the PUCCH resource of the HARQ-ACK feedback information, and determine the PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or according to at least configuring the UE to be configured on the second uplink carrier.
- the network device configures a channel selection scheme for the UE.
- the specific implementation method of the channel selection scheme is shown in the method embodiment shown in FIG. 3.
- the network device since the UE detection result is unknown, it is also uncertain. From which uplink carrier the UE feeds back information, but the network device can determine the transmission mode configured on the first cell and the second cell, and the number of TBs supported by the transmission mode, so the corresponding network device can calculate the number of TBs.
- the network device detects the feedback information of the UE one by one according to the PUCCH format lb resource index on the first uplink carrier or the second uplink carrier.
- the third scheme is used to determine that the UE is in the first uplink by using PUCCH format la or PUCCH format lb Transmitting the PUCCH resource of the HARQ-ACK feedback information on a carrier, where the third solution includes:
- the network device assumes that the UE detects the first type of downlink data on the first downlink carrier, and calculates a resource index of the PUCCH that the UE feeds back information on the first uplink carrier by using the foregoing method.
- the network device may calculate the feedback information of the UE on the second uplink carrier by using the foregoing method.
- the fourth scheme is used to determine that the UE is in the first uplink by using PUCCH format la or PUCCH format lb Transmitting the PUCCH resource of the HARQ-ACK feedback information on a carrier, where the fourth solution includes:
- a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
- the network device assumes that the UE detects the second type of downlink data on the first downlink carrier, and calculates the resource index of the PUCCH that the UE feeds back information on the first uplink carrier by using the foregoing method.
- the resource index of the PUCCH that is used by the UE to feed back information on the second uplink carrier may be calculated by using the foregoing method.
- FIG. 8 is a schematic structural diagram of Embodiment 1 of a UE according to the present invention.
- the apparatus in this embodiment may include: a carrier determining module 11, a detecting module 12, and a resource determining module 13, where
- the first determining carrier 11 is configured to determine a first uplink carrier and a second uplink carrier of the physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell
- the second uplink carrier corresponds to the second cell
- the detecting module 12 is configured to detect downlink data to obtain a detection result on the downlink carrier, where the downlink carrier includes the first downlink carrier belonging to the first cell and/or belongs to the second The second downlink carrier of the cell and/or the at least one downlink carrier belonging to the other cell, the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is scheduled by the physical downlink control channel PDCCH
- the resource determining module 13 is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is first a format, the first format is a PUCCH format format 3; if the downlink is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell Data, the format of the PUCCH that sends the HARQ-ACK feedback information is determined to be a second format, where the second format is PUCCH format la or PUCCH format lb.
- the device in this embodiment can be used to implement the technical solution of the method embodiment shown in FIG. 1.
- the principle and the technical effect are similar, and details are not described herein again.
- FIG. 9 is a schematic structural diagram of Embodiment 2 of the UE according to the present invention.
- the apparatus of this embodiment is based on the apparatus structure shown in FIG. 8, and further includes: a format determining module 21, and a scheme configuration receiving. Module 22 and power control module 23.
- the format determining module 21 is configured to receive resource configuration information, and determine, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3.
- the detecting module 12 is specifically configured to detect downlink data on the at least one downlink carrier that belongs to another cell
- the resource determining module 13 is specifically configured to use, according to the detected downlink carrier, the downlink carrier and the For the downlink data, the format of the PUCCH and the resource index of the PUCCH that send the HARQ-ACK feedback information are determined by using the first scheme.
- the first solution includes: the PUCCH format 3 resource pre-configured according to the network device Determining, in the first cell and the second cell, all of the PUCCH format 3 resources that are used to send the HARQ-ACK feedback information; according to the detected on the at least one downlink carrier belonging to another cell
- the information of the transmission power control TPC command field in the PDCCH of the PDSCH acquires a resource index of the PUCCH that transmits the HARQ-ACK feedback information.
- the detecting module 12 is configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier, and The downlink data is detected on the downlink carrier of the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second type downlink data is detected on the second downlink carrier.
- the scheme configuration receiving module 22 is configured to receive the scheme that is sent by the network device.
- the resource determining module 13 is specifically configured to detect The downlink carrier and the downlink data of the downlink data are determined by using a second scheme to determine a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH.
- the second solution includes: determining that the format of the PUCCH that sends the HARQ-ACK feedback information is a second format, where the second format is a PUCCH format lb;
- the PDCCH in a type of downlink data determines a PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier, or at least one available on the first uplink carrier according to a network device configuration And determining, by the information about the detection result of the detection result of the second type of downlink data, and the TPC command field in the PDCCH indicating the downlink SPS activation, that the first uplink carrier is available for sending the HARQ - the PUCCH resource of the ACK feedback information, in the second cell, determining, according to the PDCCH in the first type of downlink data, that the second uplink carrier is available for transmitting the HARQ-ACK feedback information
- the information of the TPC command field in the SPS-activated PDCCH determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the second uplink carrier; and determines the first uplink according to a pre-configured channel selection scheme a carrier or a resource index of the PUCCH of the second uplink carrier, where the channel selection scheme includes a pre-configured HARQ-ACK feedback information, a resource index of a PUCCH, and a correspondence between the HARQ-ACK feedback information bits relationship.
- the detecting module 12 is specifically configured to detect the first type of downlink data on the first downlink carrier
- the resource determining module 13 is configured to be used according to the first downlink carrier and the first For the downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH are determined by using the third scheme.
- the third solution including: determining, according to the PDCCH in the first type of downlink data, that the format of the PUCCH that sends the HARQ-ACK feedback information is a third format or a second format, where the third format is For PUCCH format la, the second format is PUCCH format lb; according to the formula
- the detecting module 12 is specifically configured to detect the second type of downlink data on the first downlink carrier
- the resource determining module 13 is specifically configured to use, according to the first downlink carrier, and the second For the downlink data, the fourth scheme is used to determine the format of the PUCCH that transmits the HARQ-ACK feedback information, and the resource index of the PUCCH.
- the fourth solution including: determining, that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format or the second format, and configuring, according to the network device, the first uplink carrier or the Determining, by the information on the second uplink carrier, the PUCCH resource that is used to feed back the detection result of the second type of downlink data, and the information about the TPC command field in the PDCCH indicating the downlink SPS activation Said to the first uplink carrier or the second uplink carrier of the first antenna port
- a resource index UCCH of the PUCCH and the first uplink carrier corresponding to the second antenna port or the The resource index of the PUCCH of the second uplink carrier is "H".
- the detecting module 12 is specifically configured to detect the first type of downlink data on the second downlink carrier
- the resource determining module 13 is specifically configured to use the second downlink carrier and the first type of downlink Data, using the foregoing third scheme, determining a format of the PUCCH that transmits HARQ-ACK feedback information, and a resource index of a PUCCH.
- the detecting module 12 is specifically configured to detect the second type of downlink data on the second downlink carrier.
- the resource determining module 13 is specifically configured to use the second downlink carrier and the second type of downlink. Data, using the fourth scheme described above, determining the format of the PUCCH, the resource index of the PUCCH, and the power control information of the PUCCH that transmit the HARQ-ACK feedback information.
- the power control module 23 is configured to: if it is determined to send the the uplink carrier,
- the power control information of the PUCCH is obtained according to the information of the TPC command field in the PDCCH on the first downlink carrier; if it is determined to be sent on the second uplink carrier, The HARQ-ACK feedback information is used to obtain the power control information of the PUCCH according to the information of the TPC command field in the PDCCH on the second downlink carrier.
- the device of this embodiment may be used to perform the technical solution of the method embodiment of any one of the embodiments of FIG. 1 to 5.
- the implementation principle and technical effects are similar, and details are not described herein again.
- FIG. 10 is a schematic structural diagram of Embodiment 1 of a network device according to the present invention.
- the apparatus in this embodiment may include: a carrier configuration module 11, a transmission determining module 12, and a detecting module 13, where the carrier configuration module 11 is used.
- the sending determining module 12 is configured to send downlink data to the UE by using the downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, where the downlink carrier
- the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or released downlink
- the PDCCH of the SPS is statically scheduled
- the second type of downlink data is
- FIG. 11 is a schematic structural diagram of Embodiment 2 of a network device according to the present invention.
- the device in this embodiment may further include: a resource configuration module 21 and a power control, based on the device structure shown in FIG.
- the power control module 22 is configured to carry, in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier, that the UE sends the first uplink carrier
- the power control information of the PUCCH of the HARQ-ACK feedback information where the information of the TPC command field in the PDCCH in the downlink data on the second downlink carrier carries the UE in the The power control information of the PUCCH that sends the HARQ-ACK feedback information on the second uplink carrier.
- the sending determining module 12 is specifically configured to send the downlink data to the UE by using the downlink carrier, and then assume that the UE detects the downlink data on the N2 downlink carriers, and determines that the downlink data is
- the UE may be configured to send the PUCCH resource of the HARQ-ACK feedback information, where Ni, ⁇ ⁇ 3 are natural numbers, and ⁇ 2 ⁇ ⁇ N, ⁇ ⁇ 3 ⁇ 4;
- the detecting module 13 is specifically configured to Determining, according to the determining, the HARQ-ACK feedback information that is sent by the UE on an uplink carrier, by using the PUCCH resource that the UE is available to the HARQ-ACK feedback information.
- the sending determining module 12 is specifically configured to send downlink data to the UE on the downlink carrier that belongs to the other cell, and simultaneously perform the downlink data on the downlink carrier of the at least one belonging to another cell.
- the information of the TPC command field in the PDCCH carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
- the sending determining module 12 is specifically configured to: if the UE detects the downlink data on the at least one downlink carrier that belongs to another cell, according to the at least one downlink carrier that belongs to another cell.
- the information of the TPC command field in the PDCCH of the downlink data determines a resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
- the sending determining module 12 is specifically configured to: if the UE detects the downlink data on the first downlink carrier and the second downlink carrier at the same time, and does not belong to other cells. Detecting the downlink data on the downlink carrier, configuring a channel selection scheme for the UE, and determining, according to the channel selection scheme, that the UE sends the HARQ-ACK on the first uplink carrier or the second uplink carrier. a resource index of the PUCCH format lb of the feedback information, where the channel selection scheme includes a pre-configured HARQ-ACK feedback information, a resource of the uplink carrier, and a correspondence between the HARQ-ACK feedback information bits. .
- the sending determining module 11 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource used by the UE to send the HARQ-ACK feedback information, or And the at least one PUCCH resource that is configured by the UE on the first uplink carrier to be used for feeding back a detection result of the second type of downlink data, and the TPC in a PDCCH that is the latest one indicating the downlink SPS activation.
- the UE configured in the information of the command field sends the PUCCH resource of the HARQ-ACK feedback information, and determines a PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or configuring, according to the UE, the second uplink carrier At least one of the PUCCH resources that can be used to feed back the detection result of the second type of downlink data and the UE transmission station configured in the information of the TPC command field in the latest one of the PDCCHs indicating the downlink SPS activation Describe the PUCCH resource of the HARQ-ACK feedback information, and determine a PUCCH resource used by the UE to send HARQ-ACK feedback information in the second cell.
- the sending determining module 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine the UE according to the resource used by the PDCCH of the downlink data. Transmitting the PUCCH resource of the HARQ-ACK feedback information;
- the sending determining module 12 is specifically configured to: after the UE detects the second type of downlink data on the first downlink carrier, determining that the UE is in the first uplink carrier or the second The PUCCH resource on the uplink carrier for feeding back the detection result of the second type of downlink data;
- the sending determining module 12 is specifically configured to: determine that the UE detects the first type of downlink data on the second downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information; according to formula (1)
- CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS
- the serial number of the CCE, W is the parameter configured by the network device
- the sending determining module 12 is specifically configured to: if the UE detects the second type of downlink data on the second downlink carrier, determining that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data;
- the UE Determining, according to a recent information indicating the TPC command field in the downlink SPS activated PDCCH, that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the a resource index of the PUCCH of the second uplink carrier and a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
- the device in this embodiment may be used to implement the technical solution of the method embodiment shown in FIG. 6 or FIG. 7. The implementation principle and technical effects are similar, and details are not described herein again.
- FIG. 12 is a schematic structural diagram of Embodiment 3 of a UE according to the present invention.
- the device in this embodiment may include: a processor 11 configured to determine a physical uplink that can be used to send a hybrid automatic repeat request HARQ-ACK feedback information.
- the downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to the other cell, where the downlink data is the first type of downlink data or the first
- the downlink data of the second type is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH releasing the downlink semi-persistent scheduling SPS, and the second type of downlink data is the PDSCH without PDCCH scheduling. Determining, according to the detection result, a format, PUCC of the PUCCH that sends the HARQ-ACK feedback information H's resource index.
- the processor 11 is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, The first format is a PUCCH format format 3; if the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, The format of the PUCCH that sends the HARQ-ACK feedback information is determined to be a second format, where the second format is PUCCH format la or PUCCH format lb.
- the device in this embodiment can be used to implement the technical solution of the method embodiment shown in FIG. 1.
- the principle and the technical effect are similar, and details are not described herein again.
- FIG. 13 is a schematic structural diagram of Embodiment 4 of a UE according to the present invention.
- the apparatus in this embodiment is further configured to: Receiver 21, for receiving resources, on the basis of the apparatus structure shown in FIG.
- the processor 11 is configured to determine, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3.
- the processor 11 is specifically configured to: detect downlink data on the at least one downlink carrier that belongs to another cell; determine the first cell and the first cell according to the PUCCH format 3 resource configured in advance by the network device. All of the PUCCH format 3 resources available for transmitting the HARQ-ACK feedback information in the second cell; according to the at least one belonging to another cell.
- the information of the transmission power control TPC command field in the PDCCH of the PDSCH detected on the downlink carrier acquires the resource index of the PUCCH that transmits the HARQ-ACK feedback information.
- the processor 11 is configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier, and The downlink data is detected on the downlink carrier of the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second type downlink data is detected on the second downlink carrier.
- the second format is a PUCCH format lb; determining, according to a pre-configured channel selection scheme, a resource of the PUCCH of the first uplink carrier or the second uplink carrier, the channel selection scheme
- the pre-configured HARQ-ACK feedback information, the resource index of the PUCCH, and the correspondence between the HARQ-ACK feedback information bits are included.
- the processor 11 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource that is used to send the HARQ-ACK feedback information on the first uplink carrier, where Or the at least one of the PUCCH resources that are used to feed back the detection result of the second type of downlink data and the latest one of the PDCCHs that indicate the downlink SPS activation are configured according to the network device.
- the information of the TPC command field determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier;
- the PUCCH resource that is used to send the HARQ-ACK feedback information on the second uplink carrier according to the PDCCH in the first type of downlink data, or according to the network device Configuring at least one of the PUCCH resources on the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the TPC command field in the PDCCH indicating the downlink SPS activation
- the information determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the second uplink carrier.
- the receiver 21 is further configured to receive scheme configuration information sent by the network device;
- the device 11 is specifically configured to determine, according to the scenario configuration information, whether to use the second scheme to determine a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH.
- the processor 11 is specifically configured to detect the first type of downlink data on the first downlink carrier, and determine to send the HARQ-ACK feedback according to the PDCCH in the first type of downlink data.
- the format of the PUCCH of the information is a third format or a second format, the third format is a PUCCH format la, and the second format is a PUCCH format lb;
- the processor 11 is specifically configured to detect the second type of downlink data on the first downlink carrier, and determine that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format. Or the second format;
- the information of the TPC command field in the SPS-activated PDCCH determines a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port, and corresponds to the second a resource index of the PUCCH of the first uplink carrier or the second uplink carrier of the antenna port.
- the processor 11 is specifically configured to detect the first type of downlink data on the second downlink carrier, and determine to send the according to the PDCCH in the first type of downlink data.
- the format of the PUCCH of the HARQ-ACK feedback information is a third format or a second format, the third format is PUCCH format la, and the second format is PUCCH format lb;
- nCCE 1 y 1 Calculating a resource index of the PUCCH corresponding to the first antenna port, where CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier
- the sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, and ⁇ t ⁇ H is a parameter configured by the network device;
- the processor 11 is specifically configured to detect the second type of downlink data on the second downlink carrier, and determine that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format or The second format;
- the information of the TPC command field in the activated PDCCH determines a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port, and corresponds to the second antenna
- the resource index " ⁇ of the PUCCH of the first uplink carrier or the second uplink carrier of the port is a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port, and corresponds to the second antenna.
- the processor 11 is further configured to: if it is determined to send the the uplink carrier,
- the HARQ-ACK feedback information is, according to the foregoing in the PDCCH on the first downlink carrier.
- the information of the TPC command field acquires the power control information of the PUCCH; if it is determined that the HARQ-ACK feedback information is sent on the second uplink carrier, according to the PDCCH in the PDCCH on the second downlink carrier.
- the information of the TPC command field acquires the power control information of the PUCCH.
- the device of this embodiment may be used to implement the technical solution of any one of the method embodiments of FIG. 1 to FIG. 5, and the implementation principle and technical effects thereof are similar, and details are not described herein again.
- FIG. 14 is a schematic structural diagram of Embodiment 3 of a network device according to the present invention.
- the device in this embodiment may include: a transmitter 11 and a processor 12, where the processor 12 is configured to send and send for the user equipment UE.
- the transmitter 11 is configured to send downlink data to the UE by using a downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or a second downlink carrier that belongs to the second cell, and/or at least one Downstream of other communities
- the downlink data is the first type of downlink data or the second type of downlink data
- the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or a PDCCH that releases the downlink semi-persistent scheduling SPS.
- the second type of downlink data is a PDSCH without PDCCH scheduling; the processor 12 is further configured to determine the PUCCH resource that the UE can use to send the HARQ-ACK feedback information; and detect the PUCCH resource according to the determined The HARQ-ACK feedback information sent by the UE on an uplink carrier.
- the processor 12 is further configured to pre-configure, for the UE, the format of the PUCCH that sends the HARQ-ACK feedback information to a PUCCH format format 3, and the UE sends the channel resource of the PUCCH format 3.
- the transmitter 11 is specifically configured to send downlink data to the UE on the downlink carrier that belongs to the other cell, and at the same time, the PDCCH of the downlink data on the at least one downlink carrier belonging to another cell
- the information of the TPC command field carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
- the processor 12 is specifically configured to: if the UE detects the downlink data on the at least one downlink carrier that belongs to another cell, according to the downlink on the downlink carrier that belongs to the at least one other cell
- the information of the TPC command field in the PDCCH of the data determines the resource index of the PUCCH format 3 in which the UE transmits the HARQ-ACK feedback information.
- the processor 12 is specifically configured to: if the UE detects the downlink data on the first downlink carrier and the second downlink carrier at the same time, and does not detect the downlink carrier that belongs to another cell. Determining the downlink data, configuring a channel selection scheme for the UE, and determining, according to the channel selection scheme, the PUCCH that the UE sends the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier. a resource index of the format lb, the channel selection scheme includes the pre-configured HARQ-ACK feedback information, a resource index of an uplink carrier, and the Correspondence between HARQ-ACK feedback information bits.
- the processor 12 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, or At least one PUCCH resource that is configured by the UE on the first uplink carrier to feed back a detection result of the second type of downlink data and a TPC command in a PDCCH that indicates the downlink SPS activation
- the UE configured in the information of the field sends the PUCCH resource of the HARQ-ACK feedback information, and determines a PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or according to the UE configured on the second uplink carrier.
- the PUCCH resource of the ACK feedback information is used to determine a PUCCH resource used by the UE to transmit HARQ-ACK feedback information in the second cell.
- the processor 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information;
- CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS
- the serial number of the CCE which is the parameter configured for the network device
- the processor 12 is specifically configured to: if the UE detects the second type of downlink data on the first downlink carrier, determine that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data; according to the latest one, indicating the TPC command word in the PDCCH of the downlink SPS activation
- the information of the segment determines that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the resource index of the PUCCH of the second uplink carrier, and corresponds to the second a resource index " ⁇ H " of the PUCCH of the first uplink carrier or the second uplink carrier of the antenna port.
- the processor 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information;
- CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS
- the serial number of the CCE, W ⁇ CH is the parameter configured by the network device
- the processor 12 is specifically configured to: if the UE detects the second type of downlink data on the first downlink carrier, determine that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data; determining, according to the latest information indicating the TPC command field in the downlink SPS activated PDCCH, that the UE sends the HARQ
- the ACK feedback information corresponds to a resource index of the PUCCH of the first uplink carrier or the second uplink carrier of the first antenna port, and the first uplink carrier or the second corresponding to the second antenna port
- the processor 12 is further configured to carry the UE in the first uplink carrier in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier.
- the device in this embodiment may be used to implement the technical solution of the method embodiment shown in FIG. 6 or FIG. 7. The implementation principle and technical effects are similar, and details are not described herein again.
- FIG. 15 is a schematic structural diagram of an embodiment of an uplink control channel transmission system according to the present invention.
- the system in this embodiment includes: a UE 11 and a network device 12, where the UE 11 can adopt the device embodiment shown in FIG. 8 or FIG.
- the technical solution of any of the method embodiments of FIG. 1 to FIG. 5 may be performed, and the implementation principle and the technical effect are similar, and details are not described herein;
- the network device 12 may adopt the method shown in FIG. 10 or FIG.
- the technical solution of the method embodiment shown in FIG. 6 or FIG. 7 can be performed, and the implementation principle and the technical effect are similar, and details are not described herein again.
- the structure shown in FIG. 15 may also be a schematic structural diagram of an uplink control channel transmission entity system, including: a UE 11 and a network device 12, where the UE 11 may adopt the structure of the apparatus embodiment shown in FIG. 12 or FIG.
- the technical solution of the method embodiment of any one of FIG. 1 to FIG. 5 can be performed, and the implementation principle and technical effects are similar, and details are not described herein.
- the network device 12 can adopt the structure of the device embodiment shown in FIG.
- the technical solution of the method embodiment shown in FIG. 6 or FIG. 7 can be performed, and the implementation principle and the technical effect are similar, and details are not described herein again.
- the disclosed apparatus and method may be implemented in other manners.
- the device embodiments described above are merely illustrative.
- the division of the unit is only a logical function division.
- there may be another division manner for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed.
- the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise.
- the units described as separate components may or may not be physically separated, and the components displayed as the unit may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. . Some or all of the units may be selected according to actual needs to achieve the objectives of the solution of the embodiment.
- each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
- the above integrated unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
- the above-described integrated unit implemented in the form of a software functional unit can be stored in a computer readable storage medium.
- the software functional unit is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor to perform the method of various embodiments of the present invention. Part of the steps.
- the foregoing storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, which can store program codes. .
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Abstract
Embodiments of the present invention provide an uplink control channel transmission method, device and system. The uplink control channel transmission method of the present invention comprises: determining a first uplink carrier and a second uplink carrier of a physical uplink control channel (PUCCH) that can be used for transmitting hybrid automatic repeat request (HARQ)-ACK feedback information; detecting downlink data on a downlink carrier to obtain a detection result, the downlink carrier comprising a first downlink carrier belonging to a first cell and/or a second downlink carrier belonging to a second cell and/or at least one downlink carrier belonging to another cell, and the downlink data being type 1 downlink data or type 2 downlink data; and determining, according to the detection result, a format of the PUCCH and a resource index of the PUCCH for transmitting the HARQ-ACK feedback information. The embodiments of the present invention solve the problem in the prior art of PCell uplink carrier overload occurring when an UE feeds back HARQ-ACK information only on a PUCCH of a PCell.
Description
上行控制信道传输方法、 装置及系统 Uplink control channel transmission method, device and system
技术领域 Technical field
本发明实施例涉及通信技术, 尤其涉及一种上行控制信道传输方法、 装 置及系统。 背景技术 The embodiments of the present invention relate to communication technologies, and in particular, to an uplink control channel transmission method, apparatus, and system. Background technique
长期演进 (Long Term Evolution, 简称 LTE) 系统中, 为了支持物理下 行共享数据信道 (Physical Downlink Shared Channel, 简称 PDSCH) 的自适 应编码调制及混合自动重传等技术, 用户设备 (User Equipment, 简称 UE) 需通过物理上行控制信道 (Physical Uplink Control Channel, 简称 PUCCH) 或者物理上行共享信道(Physical Uplink Shared Channel, 简称 PUSCH) 向网 络设备反馈混合自动重传请求 (Hybrid Automatic Repeat Request , 简称 HARQ) 信息, 其中包括确认应答 (Acknowledgment, 简称 ACK) 和否认应 答 (Negative Acknowledgement, 简称 NACK) , 分别对应于承载在 PDSCH 上的下行数据在 UE 侧是被正确接收到 (ACK ) 还是没有正确接收到 (NACK) 。 另外, 为了满足国际电信联盟对于第四代通信技术的峰值数据 速率要求, 在 LTE的进一步演进和增强系统 (LTE-Advanced, 简称 LTE-A) 中, 引入了载波聚合 (Carrier Aggregation, 简称 CA) 技术, 将两个或更多 的成员载波 (Component Carrier, 简称 CC) 的频谱聚合在一起以得到更宽的 传输带宽。 In the Long Term Evolution (LTE) system, user equipment (User Equipment, UE for short) is used to support the adaptive code modulation and hybrid automatic retransmission of the Physical Downlink Shared Channel (PDSCH). The Hybrid Automatic Repeat Request (HARQ) information is fed back to the network device through a Physical Uplink Control Channel (PUCCH) or a Physical Uplink Shared Channel (PUSCH). The acknowledgement (Acknowledgment, ACK for short) and the negative acknowledgement (NACK) are respectively corresponding to whether the downlink data carried on the PDSCH is correctly received (ACK) or not correctly received (NACK) on the UE side. . In addition, in order to meet the peak data rate requirements of the International Telecommunications Union for the fourth generation communication technology, carrier aggregation (CAR) is introduced in the LTE-Advanced Evolution and Enhancement System (LTE-A). The technology aggregates the spectrums of two or more Component Carriers (CCs) together to obtain a wider transmission bandwidth.
现有的 CA技术中基站 (Evolved Node B, 简称 eNodeB) 针对 UE配置 主小区(PrimaryCell, 简称 PCell)和辅小区(SecondaryCell, 简称 SCell), UE通过承载在 PUCCH上的 HARQ-ACK信息对所有服务小区( Serving Cell, 简称 SC) (包括 PCell和 SCell) 的下行子帧中传输的承载在 PDSCH上的下 行数据进行反馈, 而该 HARQ-ACK信息只在 PCell的上行载波上传输。 The existing CA technology (Evolved Node B, eNodeB for short) configures a primary cell (Primary Cell, PCell for short) and a secondary cell (SCell) for the UE. The UE uses the HARQ-ACK information carried on the PUCCH for all services. The downlink data carried on the PDSCH transmitted in the downlink subframe of the serving cell (including the PCell and the SCell) is fed back, and the HARQ-ACK information is transmitted only on the uplink carrier of the PCell.
这样一来, 在有宏网覆盖的小小区部署场景下, 为保证一定的移动性 會^ 可以同时有大量的 UE选择 PCell的上行载波进行 HARQ-ACK反馈, 将 使得 PCell的上行载波发送 PUCCH的负载过重, 特别是当 PCell的上行载波
数较少、 载波带宽较小的情况下, 可能使得 PCell 的上行载波无法再承载 PUSCH信道的上行数据传输。 发明内容 In this way, in a small cell deployment scenario with macro network coverage, in order to ensure a certain mobility, a large number of UEs can select the uplink carrier of the PCell to perform HARQ-ACK feedback, so that the uplink carrier of the PCell transmits the PUCCH. The load is too heavy, especially when the PCell's uplink carrier When the number of carriers is small and the carrier bandwidth is small, the uplink carrier of the PCell may not be able to carry the uplink data transmission of the PUSCH channel. Summary of the invention
本发明实施例提供一种上行控制信道传输方法、 装置及系统, 以解决现 有技术中 UE只在 PCell的 PUCCH上反馈 HARQ-ACK信息导致 PCell的上 行载波负载过重的问题。 The embodiment of the invention provides a method, a device and a system for transmitting an uplink control channel, so as to solve the problem that the UE only feeds the HARQ-ACK information on the PUCCH of the PCell, causing the uplink of the PCell to be overloaded.
本发明实施例提供一种上行控制信道传输方法, 包括: An embodiment of the present invention provides an uplink control channel transmission method, including:
确定可用于发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控 制信道 PUCCH 的第一上行载波和第二上行载波, 其中, 所述第一上行载波 对应第一小区, 所述第二上行载波对应第二小区; Determining, by the first uplink carrier, the first uplink carrier and the second uplink carrier, where the first uplink carrier corresponds to the first uplink carrier and the second uplink carrier, where the second uplink carrier is used to send the hybrid automatic repeat request (HARQ-ACK) Corresponding to the second cell;
在下行载波上检测下行数据获得检测结果, 所述下行载波包括属于第一 小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个属于 其它小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行数 据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行共 享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下 行数据为没有 PDCCH调度的 PDSCH; Detecting downlink data on a downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell. The downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by a physical downlink control channel PDCCH or a PDCCH for releasing a downlink semi-persistent scheduling SPS. The second type of downlink data is a PDSCH without PDCCH scheduling;
根据所述检测结果, 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式、 PUCCH的资源索引; Determining, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 Determining, according to the detection result, the sending the HARQ-ACK feedback information
PUCCH的格式、 PUCCH的资源索弓 |, 包括: The format of PUCCH, the resources of PUCCH |, include:
如果在所述至少一个属于其它小区的下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第一格式, 所 述第一格式为 PUCCH格式 format 3 ; If the downlink data is detected on the downlink carrier that belongs to the other cell, determining that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where the first format is a PUCCH format 3 ;
如果只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述 第二下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信 息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或 者 PUCCH format lb。 If the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determining to send the HARQ-ACK feedback information The format of the PUCCH is a second format, and the second format is a PUCCH format la or a PUCCH format lb.
第二方面, 本发明实施例提供一种上行控制信道传输方法, 包括: 为用户设备 UE配置发送混合自动重传请求 HARQ-ACK反馈信息的物理
上行控制信道 PUCCH 的第一上行载波和第二上行载波, 其中, 所述第一上 行载波对应第一小区, 所述第二上行载波对应第二小区; In a second aspect, the embodiment of the present invention provides an uplink control channel transmission method, including: configuring, for a user equipment UE, a physical medium that sends a hybrid automatic repeat request HARQ-ACK feedback information. a first uplink carrier and a second uplink carrier of the uplink control channel PUCCH, where the first uplink carrier corresponds to the first cell, and the second uplink carrier corresponds to the second cell;
通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述下行载波包括属于第一小区 的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个属于其它 小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行数据, 所 述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行共享数据 信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据 为没有 PDCCH调度的 PDSCH; And transmitting the downlink data to the UE by using the downlink carrier, and determining, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, where the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or belongs to a second downlink carrier of the second cell and/or at least one downlink carrier belonging to another cell, where the downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physical downlink control channel a PDCCH scheduled physical downlink shared data channel PDSCH or a PDCCH that releases a downlink semi-persistent scheduling SPS, and the second type of downlink data is a PDSCH without PDCCH scheduling;
根据确定的所述 PUCCH 资源检测所述 UE 在上行载波上发送的所述 Detecting, according to the determined PUCCH resource, the that the UE sends on an uplink carrier
HARQ-ACK反馈信息。 HARQ-ACK feedback information.
第三方面, 本发明实施例提供一种用户设备 UE, 包括: In a third aspect, an embodiment of the present invention provides a user equipment UE, including:
载波确定模块, 用于确定可用于发送混合自动重传请求 HARQ-ACK反 馈信息的物理上行控制信道 PUCCH 的第一上行载波和第二上行载波, 其 中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 检测模块, 用于在下行载波上检测下行数据获得检测结果, 所述下行载 波包括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 / 或至少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者 第二类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度 的物理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH; a carrier determining module, configured to determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, The second uplink carrier corresponds to the second cell, and the detecting module is configured to detect downlink data to obtain a detection result on the downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or belongs to the second cell. a second downlink carrier and/or at least one downlink carrier belonging to another cell, where the downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physics scheduled by a physical downlink control channel PDCCH. a downlink shared data channel PDSCH or a PDCCH that releases a downlink semi-persistent scheduling SPS, where the second type of downlink data is a PDSCH without PDCCH scheduling;
资源确定模块, 用于根据所述检测结果, 确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH的格式、 PUCCH的资源索引; a resource determining module, configured to determine, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH;
所述资源确定模块, 具体用于如果在所述至少一个属于其它小区的下行 载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第一格式, 所述第一格式为 PUCCH格式 format 3 ; The resource determining module is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, The first format is PUCCH format format 3;
如果只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述 第二下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信 息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或 者 PUCCH format lb。
第四方面, 本发明实施例提供一种网络设备, 包括: If the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determining to send the HARQ-ACK feedback information The format of the PUCCH is a second format, and the second format is a PUCCH format la or a PUCCH format lb. In a fourth aspect, an embodiment of the present invention provides a network device, including:
载波配置模块, 用于为用户设备 UE 配置发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上 行载波, 其中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第 二小区; a carrier configuration module, configured to configure, for the user equipment UE, a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first a cell, where the second uplink carrier corresponds to the second cell;
发送确定模块, 用于通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述下行载 波包括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 / 或至少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者 第二类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度 的物理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH; a sending determining module, configured to send downlink data to the UE by using a downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, where the downlink carrier includes a first downlink that belongs to the first cell. a downlink carrier and/or a second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to the other cell, wherein the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data The physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH releasing the downlink semi-persistent scheduling SPS, the second type of downlink data is a PDSCH without PDCCH scheduling;
检测模块, 用于根据确定的所述 PUCCH资源检测所述 UE在上行载波上 发送的所述 HARQ-ACK反馈信息。 And a detecting module, configured to detect, according to the determined PUCCH resource, the HARQ-ACK feedback information sent by the UE on an uplink carrier.
第五方面, 本发明实施例提供一种用户设备 UE, 包括: In a fifth aspect, an embodiment of the present invention provides a user equipment UE, including:
处理器, 用于确定可用于发送混合自动重传请求 HARQ-ACK反馈信息 的物理上行控制信道 PUCCH的第一上行载波和第二上行载波, 其中, 所述 第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 在下行载波 上检测下行数据获得检测结果, 所述下行载波包括属于第一小区的第一下行 载波和 /或属于第二小区的第二下行载波和 /或至少一个属于其它小区的下行 载波, 所述下行数据为第一类下行数据或者第二类下行数据, 所述第一类下 行数据为由物理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH 或者释放下行半静态调度 SPS 的 PDCCH , 所述第二类下行数据为没有 PDCCH调度的 PDSCH; 根据所述检测结果, 确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH的格式、 PUCCH的资源索引; a processor, configured to determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, where The second uplink carrier corresponds to the second cell, and the downlink data is detected on the downlink carrier, where the downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or Or at least one downlink carrier belonging to another cell, the downlink data is a first type of downlink data or a second type of downlink data, and the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by a physical downlink control channel PDCCH or And releasing the PDCCH of the downlink semi-persistent scheduling SPS, where the second type of downlink data is a PDSCH without PDCCH scheduling; determining, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of the PUCCH;
所述处理器, 具体用于如果在所述至少一个属于其它小区的下行载波上 检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为第一格式, 所述第一格式为 PUCCH格式 format 3; 如果只在所述 第一小区的所述第一下行载波和 /或所述第二小区的所述第二下行载波上检 测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的
格式为第二格式, 所述第二格式为 PUCCH format la或者 PUCCH format lb o The processor is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where The first format is the PUCCH format format 3; if the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, Determining the PUCCH that sends the HARQ-ACK feedback information The format is the second format, and the second format is PUCCH format la or PUCCH format lb o
第六方面, 本发明实施例提供一种网络设备, 包括: In a sixth aspect, an embodiment of the present invention provides a network device, including:
处理器, 用于为用户设备 UE配置发送混合自动重传请求 HARQ-ACK反 馈信息的物理上行控制信道 PUCCH 的第一上行载波和第二上行载波, 其 中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 发送器, 用于通过下行载波向所述 UE发送下行数据, 所述下行载波包 括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至 少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者第二 类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物 理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述 第二类下行数据为没有 PDCCH调度的 PDSCH; a processor, configured to configure, for the user equipment UE, a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell The second uplink carrier corresponds to the second cell, and the transmitter is configured to send downlink data to the UE by using a downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or belongs to the second cell. The second downlink carrier and/or the at least one downlink carrier belonging to the other cell, the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is scheduled by the physical downlink control channel PDCCH. Physical downlink shared data channel PDSCH or PDCCH that releases downlink semi-persistent scheduling SPS, and the second type of downlink data is PDSCH without PDCCH scheduling;
所述处理器, 还用于确定所述 UE可用于发送所述 HARQ-ACK反馈信息 的所述 PUCCH资源; 根据确定的所述 PUCCH资源检测所述 UE在上行载波 上发送的所述 HARQ-ACK反馈信息。 The processor is further configured to: determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, and detect, according to the determined PUCCH resource, the HARQ-ACK sent by the UE on an uplink carrier. Feedback.
第七方面, 本发明实施例提供一种上行控制信道传输系统, 包括: 用户 设备 UE和网络设备, 所述 UE采用第三方面所述的 UE, 所述网络设备采用 第四方面所述的网络设备。 According to a seventh aspect, an embodiment of the present invention provides an uplink control channel transmission system, including: a user equipment UE and a network device, where the UE adopts the UE in the third aspect, and the network device adopts the network in the fourth aspect. device.
第八方面, 本发明实施例提供一种上行控制信道传输系统, 包括: 用户 设备 UE和网络设备, 所述 UE采用第五方面所述的 UE, 所述网络设备采用 第六方面所述的网络设备。 The eighth aspect, the embodiment of the present invention provides an uplink control channel transmission system, including: a user equipment UE and a network equipment, where the UE adopts the UE according to the fifth aspect, and the network equipment uses the network described in the sixth aspect. device.
本发明实施例上行控制信道传输方法、 装置及系统, 通过通过 UE在第 一上行载波和 /或第二上行载波上发送 HARQ-ACK反馈信息, 以对多个小区 的下行数据进行反馈, 减轻上行载波的负载, 通过 eNodeB在各 Cell的下行 数据调度情况动态地确定 PUCCH 的发送格式和资源, 利用该机制可以合理 分配 PUCCH format3信道的传输资源, 提高了系统通信性能。 附图说明 为了更清楚地说明本发明实施例或现有技术中的技术方案, 下面将对实 施例或现有技术描述中所需要使用的附图作一简单地介绍, 显而易见地, 下
面描述中的附图是本发明的一些实施例, 对于本领域普通技术人员来讲, 在 不付出创造性劳动性的前提下, 还可以根据这些附图获得其他的附图。 The uplink control channel transmission method, device, and system according to the embodiment of the present invention, by transmitting HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier by the UE, feedback on downlink data of multiple cells, and reducing uplink The carrier load dynamically determines the transmission format and resources of the PUCCH through the eNodeB's downlink data scheduling in each Cell. This mechanism can reasonably allocate the transmission resources of the PUCCH format 3 channel and improve the system communication performance. BRIEF DESCRIPTION OF THE DRAWINGS In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description of the drawings used in the embodiments or the prior art description will be briefly described below. The drawings in the above description are some embodiments of the present invention, and those skilled in the art can obtain other drawings based on these drawings without any inventive labor.
图 1为本发明上行控制信道传输方法实施例一的流程图; 1 is a flowchart of Embodiment 1 of an uplink control channel transmission method according to the present invention;
图 2为本发明上行控制信道传输方法实施例二的流程图; 2 is a flowchart of Embodiment 2 of an uplink control channel transmission method according to the present invention;
图 3为本发明上行控制信道传输方法实施例三的流程图; 3 is a flowchart of Embodiment 3 of an uplink control channel transmission method according to the present invention;
图 4为本发明上行控制信道传输方法实施例四的流程图; 4 is a flowchart of Embodiment 4 of an uplink control channel transmission method according to the present invention;
图 5为本发明上行控制信道传输方法实施例五的流程图; 5 is a flowchart of Embodiment 5 of an uplink control channel transmission method according to the present invention;
图 6为本发明上行控制信道传输方法实施例六的流程图; 6 is a flowchart of Embodiment 6 of an uplink control channel transmission method according to the present invention;
图 7为本发明上行控制信道传输方法实施例七的流程图; 7 is a flowchart of Embodiment 7 of an uplink control channel transmission method according to the present invention;
图 8为本发明 UE实施例一的结构示意图; 8 is a schematic structural diagram of Embodiment 1 of a UE according to the present invention;
图 9为本发明 UE实施例二的结构示意图; 9 is a schematic structural diagram of Embodiment 2 of a UE according to the present invention;
图 10为本发明网络设备实施例一的结构示意图; 10 is a schematic structural diagram of Embodiment 1 of a network device according to the present invention;
图 11为本发明网络设备实施例二的结构示意图; 11 is a schematic structural diagram of Embodiment 2 of a network device according to the present invention;
图 12为本发明 UE实施例三的结构示意图; 12 is a schematic structural diagram of Embodiment 3 of a UE according to the present invention;
图 13为本发明 UE实施例四的结构示意图; 13 is a schematic structural diagram of Embodiment 4 of a UE according to the present invention;
图 14为本发明网络设备实施例三的结构示意图; 14 is a schematic structural diagram of Embodiment 3 of a network device according to the present invention;
图 15为本发明上行控制信道传输系统实施例的结构示意图。 具体实施方式 FIG. 15 is a schematic structural diagram of an embodiment of an uplink control channel transmission system according to the present invention. detailed description
现有技术中, 在载波聚合的场景下, UE 都在 Pcell 的上行载波上发送 In the prior art, in the scenario of carrier aggregation, the UE sends on the uplink carrier of the Pcell.
PUCCH, PUCCH信道传输的功率控制命令字都来自于 Pcell上 PDCCH中的 对 PUCCH的 TPC命令字段的信息。 网络设备对 PUCCH的 TPC命令字中携 带的功控消息不区分 UE发送 PUCCH的是格式(format) la/lb还是 PUCCH format 3, UE在使用 TPC命令字调整 PUCCH发射功率的时候根据不同的发 射格式体现一定的发射功率偏差。 The power control command words transmitted by the PUCCH and PUCCH channels are all from the information of the TPC command field of the PUCCH in the PDCCH on the Pcell. The power control message carried in the TPC command word of the PUCCH of the network device does not distinguish whether the UE transmits the PUCCH in the format la/lb or PUCCH format 3. The UE adjusts the PUCCH transmission power according to different transmission formats when using the TPC command word. Reflects a certain transmission power deviation.
为卸载 Pcell的上行载波的 PUCCH负载, 可以在除 Pcell的其它一个或 一个以上的 Scell上也发送 PUCCH信道, 即在 Scell上承载 PUCCH信道, 假 设这个除 Pcell外可以承载 PUCCH信道的 Cell叫做 PUCCH-Scell。 如果 UE 只在 Pcell的下行载波上检测到 PDSCH传输, 则 UE使用 PUCCH format la/lb 来回复 HARQ-ACK, PUCCH format la/lb 的传输资源与调度 PDSCH 的
PDCCH资源位置对应, 或者用 Pcell上配置的 SPS反馈资源; 而如果 UE在 除 Pcell外的其他任何一个 Scell的下行载波上检测到 PDSCH传输, UE使用 PUCCH format 3反馈 HARQ-ACK, PUCCH format 3的资源由 eNodeB通过 Scell的 PDCCH的 TPC命令字段的信息指示, 可以是在 PUCCH-Scell的上行 载波上, 从而达到卸载 Pcell中 PUCCH负载的目的。 To unload the PUCCH load of the uplink carrier of the Pcell, the PUCCH channel may also be transmitted on the other one or more Scells other than the Pcell, that is, the PUCCH channel is carried on the Scell, and the Cell that can carry the PUCCH channel except the Pcell is called PUCCH- Scell. If the UE detects the PDSCH transmission only on the downlink carrier of the Pcell, the UE uses the PUCCH format la/lb to reply the HARQ-ACK, the PUCCH format la/lb transmission resource and the scheduling PDSCH. The PDCCH resource location corresponds to the SPS feedback resource configured on the Pcell. If the UE detects the PDSCH transmission on the downlink carrier of any other Scell except the Pcell, the UE uses the PUCCH format 3 to feed back the HARQ-ACK, PUCCH format 3 The resource is indicated by the eNodeB through the information of the TPC command field of the PDCCH of the Scell, and may be on the uplink carrier of the PUCCH-Scell, so as to achieve the purpose of offloading the PUCCH load in the Pcell.
但是, 由于 PUCCH format la/lb的 PUCCH信道和 PUCCH format 3的 PUCCH信道传输的功率控制命令字都来自 Pcell上 PDCCH中的 TPC命令字 段, 这样, 如果 eNodeB在 Pcell和除 Pcell外的其他 Cell的下行载波上为 UE 传输了下行数据, 但是到达 UE后, UE并没有检测到除 Pcell外其他 Cell的 下行载波上的数据, 这种情况下, UE会误以为 eNodeB只在 Pcell的下行载 波上对自己有数据传输而在 Pcell的上行载波上使用 PUCCH format la/lb反 馈 HARQ-ACK。 结果, eNodeB在 Pcell 的 PDCCH (包括调度 PDSCH 的 PDCCH或其它携带下行控制信息(Downlink Control Information, 简称 DCI) format3/3A 的 PDCCH ) 中对 PUCCH 的 TPC 命令字段原本是用来调整 PUCCH-Scell上 PUCCH的发射功率, UE却用该功率控制消息调整了 Pcell 上 PUCCH format la/lb的 PUCCH信道的发射功率, 导致了对 PUCCH发射 功率错误控制的后果。 However, since the power control command words of the PUCCH channel of the PUCCH format la/lb and the PUCCH channel of the PUCCH format 3 are all from the TPC command field in the PDCCH on the Pcell, if the eNodeB is in the downlink of the Pcell and other cells other than the Pcell The downlink data is transmitted on the carrier for the UE. However, after the UE arrives, the UE does not detect the data on the downlink carrier of the other cell except the Pcell. In this case, the UE may mistake the eNodeB for the downlink carrier only on the Pcell. There is data transmission and PUCCH format la/lb feedback HARQ-ACK is used on the uplink carrier of the Pcell. As a result, the TPC command field of the PUCCH in the PDCCH of the Pcell (including the PDCCH for scheduling the PDSCH or the PDCCH carrying the downlink control information (DCI) format 3/3A) is originally used to adjust the PUCCH on the PUCCH-Scell. The transmit power of the UE uses the power control message to adjust the transmit power of the PUCCH channel of the PUCCH format la/lb on the Pcell, which results in the wrong control of the PUCCH transmit power.
因此, 本发明的技术方案在于, UE可以在除 Pcell的其他上行载波上传 输 PUCCH信道, 通过 eNodeB在各 Cell的下行数据的调度情况动态地确定 PUCCH的发送格式和资源索引, 并且在 PDCCH信道分别控制所在小区上行 载波上 PUCCH的发射功率。 利用该机制可以合理分配 PUCCH信道的传输资 源, 解决了 PUCCH 功率控制错误的问题, 也解决了 Pcell 的上行载波 PUCCH负载过重的问题, 同时保证了 PUCCH信道传输的性能。 Therefore, the technical solution of the present invention is that the UE can transmit the PUCCH channel on other uplink carriers except the Pcell, and dynamically determine the transmission format and the resource index of the PUCCH by using the scheduling condition of the downlink data of each of the eNodeBs, and separately determine the transmission format and the resource index of the PUCCH. Control the transmit power of the PUCCH on the uplink carrier of the cell in which the cell is located. The mechanism can reasonably allocate the transmission resources of the PUCCH channel, solve the problem of PUCCH power control error, and solve the problem that the uplink carrier PUCCH of the Pcell is overloaded, and at the same time ensure the performance of the PUCCH channel transmission.
为使本发明实施例的目的、 技术方案和优点更加清楚, 下面将结合本发 明实施例中的附图, 对本发明实施例中的技术方案进行清楚、 完整地描述, 显然, 所描述的实施例是本发明一部分实施例, 而不是全部的实施例。 基于 本发明中的实施例, 本领域普通技术人员在没有作出创造性劳动前提下所获 得的所有其他实施例, 都属于本发明保护的范围。 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is a partial embodiment of the invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
图 1为本发明上行控制信道传输方法实施例一的流程图, 如图 1所示, 本实施例的方法可以包括:
步骤 101、 确定可用于发送混合自动重传请求 HARQ-ACK反馈信息的物 理上行控制信道 PUCCH的第一上行载波和第二上行载波; FIG. 1 is a flowchart of Embodiment 1 of an uplink control channel transmission method according to the present invention. As shown in FIG. 1 , the method in this embodiment may include: Step 101: Determine a first uplink carrier and a second uplink carrier of a physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information.
本实施例的执行主体可以是 UE。 所述第一上行载波对应第一小区, 所 述第二上行载波对应第二小区, UE在明确哪个是第一上行载波, 那个是第 二上行载波, 以及第一上行载波对应的第一小区和第二上行载波对应的第二 小区, 在后续的操作中就可以准确的获取到发送 HARQ-ACK 反馈信息的 PUCCH资源。 The execution body of this embodiment may be a UE. The first uplink carrier corresponds to the first cell, the second uplink carrier corresponds to the second cell, and the UE determines which is the first uplink carrier, where is the second uplink carrier, and the first cell corresponding to the first uplink carrier The second cell corresponding to the second uplink carrier can accurately acquire the PUCCH resource that sends the HARQ-ACK feedback information in subsequent operations.
步骤 102、 在下行载波上检测下行数据获得检测结果; Step 102: Detect downlink data on a downlink carrier to obtain a detection result.
本实施例中, 所述下行载波包括属于第一小区的第一下行载波和 /或属于 第二小区的第二下行载波和 /或至少一个属于其它小区的下行载波, 所述下 行数据为第一类下行数据或者第二类下行数据, 所述第一类下行数据为由物 理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH或者释放下行 半静态调度 SPS 的 PDCCH, 所述第二类下行数据为没有 PDCCH 调度的 PDSCH。 In this embodiment, the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell, where the downlink data is The downlink data of the first type is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH releasing the downlink semi-persistent scheduling SPS, and the second type of downlink data. A PDSCH that is not scheduled for PDCCH.
需要说明的是,在本发明的所有实施例中, UE在下行载波上检测下行数 据获得的检测结果, 包括 UE是否在下行载波上检测到有下行数据传输和 /或 检测到的下行数据传输是否传输正确。 It should be noted that, in all the embodiments of the present invention, the UE detects the detection result obtained by the downlink data on the downlink carrier, whether the UE detects whether the downlink data transmission and/or the detected downlink data transmission are detected on the downlink carrier. The transmission is correct.
现有的 CA技术中 eNodeB针对 UE配置 PCell和 SCell, 为保证 UE在 SCell内的移动性能, UE通过承载在 PUCCH上的 HARQ-ACK信息对所有 SC (包括 PCell和 SCell) 的下行子帧中传输的承载在 PDSCH上的下行数据 进行反馈, 通常在一个子帧内有多个下行载波上承载有下行数据, 而 UE只 在 PCell 的 PUCCH 上反馈 HARQ-ACK信息, 3GPP 协议中新增了 2 个 PUCCH格式(format)以支持载波聚合: 一个是带信道选择的 PUCCH format lb (PUCCH format lb with channel selection): 使用 PUCCH format lb携带的 2比特的 HARQ-ACK信息, 再通过信道选择来确定发送 HARQ-ACK信息的 PUCCH资源, 这种格式只支持不超过 4比特 HARQ-ACK信息且不多于 2个 SC的场景; 另一个是 PUCCH format 3 : 可支持至多 5个 SC且 UE在每个 SC 都配置了多入多出技术 (Multiple-Input Multiple-Output, 简称 MIMO) 的场 景, PUCCH format 3也能够支持 2个 SC的场景, 具体是使用 PUCCH format 3还是 PUCCH format lb with channel selection取决于 eNodeB的配置。
本实施例中, UE在下行载波上检测网络设备发送的下行数据, 对于 UE 来讲, 网络设备发送的数据可以是从第一小区的第一下行载波上发送的, 也 可以是在第二小区的第二下行载波上发送的, 还可以是在其它小区的下行载 波上发送的, 这里的其它小区是指除第一小区和第二小区外的小区, 由于 UE并不确定下行数据具体通过哪个下行载波发送, 因此 UE需要在各个下行 载波上进行检测以防数据丢失。 这里所述 UE在下行载波上检测网络设备发 送的下行数据分为两类, 一类是有物理下行控制信道 (Physical Downlink Control Channel, 简称 PDCCH)调度的 PDSCH或释放下行半静态调度(Semi Persistent Schedulingv, 简称 SPS )的 PDCCH, 前者可以认为是动态调度状态 下, 每次网络设备发送下行数据都会在在下行载波的 PDCCH 上携带上 PDSCH 的资源信息, 后者网络设备在激活下行 SPS 时向 UE 发送一个 PDCCH, 告知 UE在后续的一段时间内网络设备会周期性地在固定的资源上 发送 PDSCH, 然后网络设备在释放下行 SPS时再向 UE发送一个 PDCCH, 告知 UE下行 SPS调度方式结束, UE无论是收到带有 PDCCH的 PDSCH还 是收到释放下行 SPS 的 PDCCH 都需要向网络设备反馈接收结果, 即 HARQ-ACK反馈信息; 另一类是没有 PDCCH调度的 PDSCH, 可以认为这 一类数据即下行 SPS 调度, 网络设备在激活下行 SPS 时已经预先分配了 PDSCH 的资源, 因此在后续一段时间内, 网络设备将会周期性地使用相同 的资源发送下行数据, 此时, UE 也是在固定的位置上检测下行数据, 在这 个过程中的 PDSCH不需要再另外通过 PDCCH进行调度, UE同样要向网络 设备反馈 HARQ-ACK信息。 In the existing CA technology, the eNodeB configures the PCell and the SCell for the UE. To ensure the mobile performance of the UE in the SCell, the UE transmits the downlink subframes of all the SCs (including the PCell and the SCell) through the HARQ-ACK information carried on the PUCCH. The downlink data carried on the PDSCH is fed back. Generally, downlink data is carried on multiple downlink carriers in one subframe, and the UE only feeds back HARQ-ACK information on the PUCCH of the PCell, and two new 3GPP protocols are added. PUCCH format to support carrier aggregation: One is PUCCH format lb with channel selection: Use 2-bit HARQ-ACK information carried by PUCCH format lb, and then determine HARQ by channel selection - PUCCH resource of ACK information, this format only supports scenarios of no more than 4 bits of HARQ-ACK information and no more than 2 SCs; another is PUCCH format 3: can support up to 5 SCs and UEs in each SC In the scenario of Multiple-Input Multiple-Output (MIMO), PUCCH format 3 can also support two SC scenarios, specifically PUCCH format 3 or PUCCH format lb wi. The th channel selection depends on the configuration of the eNodeB. In this embodiment, the UE detects downlink data sent by the network device on the downlink carrier. For the UE, the data sent by the network device may be sent from the first downlink carrier of the first cell, or may be second. The second downlink carrier of the cell may be sent on the downlink carrier of the other cell, where other cells refer to cells other than the first cell and the second cell, because the UE does not determine that the downlink data specifically passes. Which downlink carrier is transmitted, so the UE needs to perform detection on each downlink carrier to prevent data loss. The UE detects that the downlink data sent by the network device is divided into two types on the downlink carrier, and the first type is a PDSCH with a physical downlink control channel (PDCCH) scheduling or a downlink semi-static scheduling (Semi Persistent Schedulingv). The PDCCH of the abbreviated SPS, the former can be considered as a dynamic scheduling state, each time the network device sends the downlink data, the resource information of the PDSCH is carried on the PDCCH of the downlink carrier, and the latter network device sends the downlink information to the UE when the downlink SPS is activated. A PDCCH, informing the UE that the network device periodically transmits the PDSCH on a fixed resource in a subsequent period of time, and then the network device sends a PDCCH to the UE when the downlink SPS is released, and the UE is notified that the downlink SPS scheduling mode ends. Whether the PDCCH with the PDCCH is received or the PDCCH that receives the downlink SPS is received, the UE needs to feed back the reception result, that is, the HARQ-ACK feedback information. The other type is the PDSCH without PDCCH scheduling. SPS scheduling, the network device has pre-allocated PDSCH resources when activating the downlink SPS, because During the subsequent period of time, the network device periodically uses the same resource to send downlink data. At this time, the UE also detects downlink data at a fixed location, and the PDSCH in this process does not need to be additionally scheduled through the PDCCH. The UE also feeds back the HARQ-ACK information to the network device.
步骤 103、 根据所述检测结果, 确定发送所述 HARQ-ACK反馈信息的所 述 PUCCH的格式、 PUCCH的资源索引。 Step 103: Determine, according to the detection result, a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of the PUCCH.
本实施例中, UE根据在下行载波上检测下行数据的结果, 即 UE可能在 其它小区的下行载波上检测到下行数据, 或者只在第一下行载波和 /或第二 下行载波上检测到下行数据。 根据上述检测结果, UE 确定自己发送 HARQ-ACK反馈信息的 PUCCH的格式和资源索引, 这里承载所述 PUCCH 的上行载波包括属于所述第一小区的第一上行载波和 /或属于所述第二小区 的第二上行载波, 也就是说, UE 收到第一小区、 第二小区和 /或其它小区的 下行载波上的下行数据后, 可以有两个发送 HARQ-ACK反馈信息的上行载
波, 即第一小区的第一上行载波和第二小区的第二上行载波, 在这两个上行 载波上可以确定出相应的 PUCCH格式、 资源索引, 使得在该 PUCCH资源上 携带 HARQ-ACK反馈信息。 In this embodiment, the UE detects downlink data on the downlink carrier, that is, the UE may detect downlink data on the downlink carrier of other cells, or only detects on the first downlink carrier and/or the second downlink carrier. Downstream data. According to the foregoing detection result, the UE determines the format and resource index of the PUCCH for transmitting the HARQ-ACK feedback information, where the uplink carrier carrying the PUCCH includes the first uplink carrier belonging to the first cell and/or belongs to the second The second uplink carrier of the cell, that is, after receiving the downlink data on the downlink carrier of the first cell, the second cell, and/or other cells, the UE may have two uplinks for transmitting HARQ-ACK feedback information. The first uplink carrier of the first cell and the second uplink carrier of the second cell, and the corresponding PUCCH format and resource index may be determined on the two uplink carriers, so that the HARQ-ACK feedback is carried on the PUCCH resource. information.
本实施例, 通过 UE 在第一上行载波和 /或第二上行载波上发送 HARQ-ACK 反馈信息, 以对多个小区的下行数据进行反馈, 减轻上行载波 的负载, 通过 eNodeB 在各 Cell 的下行数据调度情况和指示动态地确定 PUCCH的发送格式和资源, 利用该机制可以合理分配 PUCCH format3信道 的传输资源, 提高了系统通信性能。 In this embodiment, the UE sends the HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier, so as to feedback the downlink data of multiple cells, and reduce the load of the uplink carrier, and the eNodeB is downlinked in each cell. The data scheduling situation and the indication dynamically determine the transmission format and resources of the PUCCH, and the transmission resource of the PUCCH format 3 channel can be reasonably allocated by using the mechanism, thereby improving the communication performance of the system.
进一步的, 上述方法实施例的步骤 103根据所述检测结果, 确定发送所 述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 具体 的实现方法可以是: 如果在所述至少一个属于其它小区的下行载波上检测到 所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式 为第一格式, 所述第一格式为 PUCCH格式 format 3; 如果只在所述第一小 区的所述第一下行载波和 /或所述第二小区的所述第二下行载波上检测到所 述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为 第二格式, 所述第二格式为 PUCCH格式 format la或者 format lb。 Further, the step 103 of the foregoing method embodiment determines, according to the detection result, the format of the PUCCH that sends the HARQ-ACK feedback information, and the resource of the PUCCH. The specific implementation method may be: And determining, by the at least one downlink carrier that belongs to another cell, the downlink data, determining that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, where the first format is a PUCCH format format 3; And detecting the downlink data on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determining to send the HARQ-ACK feedback information. The format of the PUCCH is the second format, and the second format is the PUCCH format format la or format lb.
具体来讲, 如果 UE在至少一个属于其它小区的下行载波上检测到下行 数据那么不管在第一下行载波和第二下行载波上是否检测到下行数据, 都会 将发送 HARQ-ACK反馈信息的 PUCCH的格式确定为 PUCCH format 3; 如 果 UE只在第一小区的第一下行载波和 /或第二小区的第二下行载波上检测到 所述下行数据, 那么 UE会将发送 HARQ-ACK反馈信息的 PUCCH的格式确 定为 PUCCH format la或者 PUCCH format lb。 这是 UE在确定 PUCCH的格 式时需要遵守的原则, 这也是 UE和网络设备预先达成共识的。 Specifically, if the UE detects downlink data on at least one downlink carrier belonging to another cell, the PUCCH that sends the HARQ-ACK feedback information will be sent regardless of whether downlink data is detected on the first downlink carrier and the second downlink carrier. The format is determined to be PUCCH format 3; if the UE detects the downlink data only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, the UE will send the HARQ-ACK feedback information. The format of the PUCCH is determined to be PUCCH format la or PUCCH format lb. This is the principle that the UE needs to follow when determining the format of the PUCCH. This is also a pre-agreed agreement between the UE and the network device.
进一步的, 在上述方法实施例的步骤 101之前, 还包括接收资源配置信 息, 根据所述资源配置信息确定通过 PUCCH format 3发送所述 HARQ-ACK 反馈信息。 具体来讲, UE 在接收到网络设备配置的资源配置信息后, 根据 该资源配置信息可以获知网络设备是否给自己配置了 PUCCH format 3 资 源, 自己在发送 HARQ-ACK反馈信息时是否可以使用 PUCCH format 3格 式。 Further, before step 101 of the foregoing method embodiment, the method further includes receiving resource configuration information, and determining, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3. Specifically, after receiving the resource configuration information configured by the network device, the UE can learn whether the network device configures the PUCCH format 3 resource according to the resource configuration information, and whether the PUCCH format can be used when transmitting the HARQ-ACK feedback information. 3 format.
下面采用几个具体的实施例, 对图 1所示方法实施例的技术方案进行详
细说明。 The following is a detailed description of the technical solutions of the method embodiment shown in FIG. Detailed description.
图 2为本发明上行控制信道传输方法实施例二的流程图, 如图 2所示, 本实施例的方法可以包括: 2 is a flowchart of Embodiment 2 of an uplink control channel transmission method according to the present invention. As shown in FIG. 2, the method in this embodiment may include:
步骤 201、 在至少一个属于其它小区的下行载波上检测到下行数据; 本实施例的执行主体为 UE。 UE在至少一个属于其它小区的下行载波上 检测到网络设备发送的下行数据, 这里不限制 UE是否在第一下行载波和第 二下行载波上检测到数据。 至少一个属于其它小区的下行载波表示 UE检测 到的下行数据可以是其它一个小区的下行载波, 也可以是其它多个小区的下 行载波, 此处不做具体限定。 Step 201: Detect downlink data on at least one downlink carrier that belongs to another cell. The execution entity of this embodiment is a UE. The UE detects the downlink data sent by the network device on the downlink carrier that belongs to the other cell, and does not limit whether the UE detects the data on the first downlink carrier and the second downlink carrier. At least one downlink carrier that belongs to another cell indicates that the downlink data detected by the UE may be a downlink carrier of another cell, or may be a downlink carrier of other multiple cells, which is not specifically limited herein.
步骤 202、 根据检测到的下行数据的下行载波以及下行数据, 采用第一 方案确定发送 HARQ-ACK反馈信息的 PUCCH 的格式、 PUCCH 的资源索 引。 Step 202: Determine, according to the downlink carrier and the downlink data of the detected downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
本实施例中, UE 在其它小区的下行载波上检测到了下行数据, 这里的 下行数据通常是指由 PDCCH调度的 PDSCH, 在这种情况下, UE确定发送 HARQ-ACK反馈信息的 PUCCH的格式为 PUCCH format 3, 第一方案包括: 根据所述网络设备预先配置的所述 PUCCH format 3资源确定所述第一 小区和所述第二小区中可用于发送所述 HARQ-ACK 反馈信息的所有所述 PUCCH format 3资源; 根据在所述至少一个属于其它小区的下行载波上检测 到的所述 PDSCH 的所述 PDCCH 中的传输功率控制 (Transmission Power Control, 简称 TPC) 命令字段的信息获取发送所述 HARQ-ACK反馈信息的 所述 PUCCH的资源索引。 In this embodiment, the UE detects the downlink data on the downlink carrier of the other cell, where the downlink data generally refers to the PDSCH scheduled by the PDCCH. In this case, the UE determines that the format of the PUCCH that sends the HARQ-ACK feedback information is The PUCCH format 3, the first solution includes: determining, according to the PUCCH format 3 resource pre-configured by the network device, all of the first cell and the second cell that are available to send the HARQ-ACK feedback information a PUCCH format 3 resource; acquiring and transmitting the HARQ according to information of a Transmission Power Control (TPC) command field in the PDCCH of the PDSCH detected by the at least one downlink carrier that belongs to another cell - Resource index of the PUCCH of the ACK feedback information.
具体来讲, 网络设备预先为 UE配置了至少两个可用的 PUCCH format 3 资源, UE根据网络设备的配置信息确定这些 PUCCH的可用的资源索引, 然 后根据在其它小区的下行载波上检测到的调度 PDSCH的 PDCCH中的信息确 定 PUCCH 的资源索引, 该信息具体的即 PDCCH 中的 TPC命令字段的信 息, 该字段是一个复用字段, 可以作为上行功控信息, 也可以作为资源索引 信息, 在 PUCCH format 3 中将该字段是作为资源指示来使用的, 而且 PUCCH的资源索引对应的 PUCCH资源可以是第一上行载波的, 也可以是第 二上行载波的, UE根据 TPC命令字段的信息也同时确定了发送 PUCCH的 上行载波。 UE在确定了 PUCCH的格式以及资源索引后, 就可以将下行载波
上的数据的检测结果通过该 PUCCH 资源反馈给网络设备了, 需要说明的 是, UE 如果只在其它小区的下行载波上检测到下行数据, 则在 PUCCH format 3中只需要在相应的比特位上填写该下行载波的检测结果, 如果 UE还 在第一下行载波和 /或第二下行载波上检测到下行数据, 则在 PUCCH format 3中 UE将在所有下行载波的检测结果都填写在相应的比特位上反馈给网络设 备, 这样一来只需要一个 PUCCH资源就可以将所有检测结果携带上, 与同 时在第一上行载波和第二上行载波上反馈 PUCCH format 3相比, 减少了反 馈占用的资源, 也提高了 PUCCH foramt 3的性能。 Specifically, the network device configures at least two available PUCCH format 3 resources for the UE in advance, and the UE determines the available resource indexes of the PUCCHs according to the configuration information of the network devices, and then according to the scheduling detected on the downlink carriers of other cells. The information in the PDCCH of the PDSCH determines the resource index of the PUCCH. The information is specifically the information of the TPC command field in the PDCCH. The field is a multiplexing field, which can be used as uplink power control information or as resource index information in the PUCCH. In the format 3, the field is used as the resource indication, and the PUCCH resource corresponding to the resource index of the PUCCH may be the first uplink carrier or the second uplink carrier, and the UE also determines the information according to the TPC command field. The uplink carrier that transmits the PUCCH. After the UE determines the format of the PUCCH and the resource index, the downlink carrier can be used. The detection result of the data is fed back to the network device through the PUCCH resource. It should be noted that if the UE detects downlink data only on the downlink carrier of other cells, only the corresponding bit needs to be in the PUCCH format 3. Filling in the detection result of the downlink carrier, if the UE also detects downlink data on the first downlink carrier and/or the second downlink carrier, in the PUCCH format 3, the UE fills in the detection result of all the downlink carriers in the corresponding The bit is fed back to the network device, so that only one PUCCH resource is needed to carry all the detection results, which reduces the feedback occupation compared with the feedback of the PUCCH format 3 on the first uplink carrier and the second uplink carrier. Resources also improve the performance of PUCCH foramt 3.
本实施例, 通过 UE 在第一上行载波或第二上行载波上发送 PUCCH format 3, 以对多个小区的下行数据进行反馈, 不但减轻上行载波的负载, 解决现有技术中 UE只在 PCell的 PUCCH上反馈 HARQ-ACK信息导致 PCell 的上行载波负载过重的问题, 而且将多个信息通过一个 PUCCH资源反馈提 高传输性能。 In this embodiment, the UE sends the PUCCH format 3 on the first uplink carrier or the second uplink carrier to feed back the downlink data of the multiple cells, which not only reduces the load of the uplink carrier, but also solves the problem that the UE is only in the PCell in the prior art. The feedback of the HARQ-ACK information on the PUCCH causes the PCell's uplink carrier to be overloaded, and the multiple information is improved by one PUCCH resource feedback.
图 3为本发明上行控制信道传输方法实施例三的流程图, 如图 3所示, 本实施例的方法可以包括: FIG. 3 is a flowchart of Embodiment 3 of a method for transmitting an uplink control channel according to the present invention. As shown in FIG. 3, the method in this embodiment may include:
步骤 301、 在第一下行载波和第二下行载波上都检测到下行数据且没有 在属于其它小区的下行载波上检测到下行数据; Step 301: Detecting downlink data on the first downlink carrier and the second downlink carrier, and detecting downlink data on downlink carriers belonging to other cells;
本实施例的执行主体为 UE。 UE在第一下行载波和第二下行载波上都检 测到下行数据包括: 在所述第一下行载波上检测到网络设备发送的所述第一 类下行数据, 在所述第二下行载波上检测到网络设备发送的所述第一类下行 数据; 或者, 在所述第一下行载波上检测到网络设备发送的所述第二类下行 数据, 在所述第二下行载波上检测到网络设备发送的所述第二类下行数据; 或者, 在所述第一下行载波上检测到网络设备发送的所述第一类下行数据, 在所述第二下行载波上检测到网络设备发送的所述第二类下行数据; 或者, 在所述第一下行载波上检测到网络设备发送的所述第二类下行数据, 在所述 第二下行载波上检测到网络设备发送的所述第一类下行数据。 除此之外, UE没有在其它任何小区的下行载波上检测到下行数据。 The execution body of this embodiment is a UE. The detecting, by the UE, the downlink data on the first downlink carrier and the second downlink carrier includes: detecting, on the first downlink carrier, the first type of downlink data that is sent by the network device, where the second downlink carrier is Detecting the first type of downlink data that is sent by the network device, or detecting, on the first downlink carrier, the second type of downlink data that is sent by the network device, and detecting, on the second downlink carrier, The second type of downlink data that is sent by the network device; or the first type of downlink data that is sent by the network device is detected on the first downlink carrier, and the network device is sent to the second downlink carrier. The second type of downlink data is detected on the first downlink carrier, and the second type of downlink data sent by the network device is detected on the first downlink carrier, and the network device sends the detected on the second downlink carrier. The first type of downlink data. In addition, the UE does not detect downlink data on the downlink carriers of any other cell.
步骤 302、 接收网络设备发送的方案配置信息, 并根据方案配置信息确 定是否采用第二方案确定发送 HARQ-ACK 反馈信息的 PUCCH 的格式、 PUCCH的资源索引;
本实施例中, 根据上述 UE检测到下行数据的情况, 可以有两种方法确 定 PUCCH的格式、 PUCCH的资源索引, 本实施例是其中一种方法, 而 UE 是否采用本实施例的方法, 网络设备会通知 UE, 即向 UE 发送方案配置信 息, 然后 UE根据该方案配置信息来确定到底采用哪种方案来确定 PUCCH的 格式、 PUCCH的资源索引。 需要说明的是, 步骤 302可以不是一个必须的步 骤, 此处指示本发明的一种实施方法, 不限于其它形式的实现。 Step 302: Receive scheme configuration information sent by the network device, and determine, according to the scheme configuration information, whether the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH are determined by using the second scheme. In this embodiment, according to the situation that the UE detects the downlink data, there may be two methods for determining the format of the PUCCH and the resource index of the PUCCH. This embodiment is one of the methods, and whether the UE adopts the method of the embodiment, the network The device notifies the UE, that is, sends the scenario configuration information to the UE, and then the UE determines, according to the scenario configuration information, which scheme is adopted to determine the format of the PUCCH and the resource index of the PUCCH. It should be noted that step 302 may not be a necessary step, and an implementation method of the present invention is indicated herein, and is not limited to other forms of implementation.
步骤 303、 根据检测到的下行数据的下行载波以及下行数据, 采用第二 方案确定发送 HARQ-ACK反馈信息的 PUCCH 的格式、 PUCCH 的资源索 引。 Step 303: Determine, according to the downlink carrier and the downlink data of the detected downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH.
本实施例中, 根据上述 UE检测到下行数据的情况, UE采用第二方案确 定发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索弓 |, 第二 方案包括: In this embodiment, according to the situation that the UE detects the downlink data, the UE determines, by using the second scheme, the format of the PUCCH that sends the HARQ-ACK feedback information, and the resource of the PUCCH. The second solution includes:
确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format lb; 根据预先配置的信道选择方案确定所述 第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引, 所述信道选 择方案包括预先配置的所述 HARQ-ACK反馈信息、 PUCCH的资源索引、 所 述 HARQ-ACK反馈信息比特之间的对应关系。 Determining, in a second format, the format of the PUCCH that sends the HARQ-ACK feedback information, where the second format is a PUCCH format lb; determining the first uplink carrier or the second uplink according to a pre-configured channel selection scheme a resource index of the PUCCH of the carrier, where the channel selection scheme includes a pre-configured HARQ-ACK feedback information, a resource index of a PUCCH, and a correspondence between the HARQ-ACK feedback information bits.
进一步的, 在根据预先配置的信道选择方案确定所述第一上行载波或所 述第二上行载波的所述 PUCCH 的资源索引之前, 还包括: 在所述第一小区 内, 根据所述第一类下行数据中的所述 PDCCH确定所述第一上行载波上可 用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据网络设备配 置的在所述第一上行载波上的至少一个可用于反馈所述第二类下行数据的检 测结果的所述 PUCCH资源和最近的一个指示所述下行 SPS激活的 PDCCH 中的 TPC 命令字段的信息确定所述第一上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 在所述第二小区内, 根据所述第 一类下行数据中的所述 PDCCH 确定所述第二上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 或者, 根据网络设备配置的在所 述第二上行载波上的至少一个可用于反馈所述第二类下行数据的检测结果的 所述 PUCCH资源和最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行载波上可用于发送所述 HARQ-ACK
反馈信息的所述 PUCCH资源。 Further, before determining, according to the pre-configured channel selection scheme, the resource index of the PUCCH of the first uplink carrier or the second uplink carrier, the method further includes: in the first cell, according to the first The PDCCH in the downlink-like data determines a PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier, or at least one that is configured on the first uplink carrier according to a network device is available. And the information about the TPC command field in the PDCCH indicating the detection of the downlink SPS and the latest TPC command field in the PDCCH indicating the downlink SPS activation is determined to be used to send the HARQ on the first uplink carrier. The PUCCH resource of the ACK feedback information, in the second cell, determining, according to the PDCCH in the first type of downlink data, where the HARQ-ACK feedback information is available on the second uplink carrier The PUCCH resource, or at least one of the second uplink carriers configured according to the network device, may be used to feed back the detection result of the second type of downlink data. PUCCH resources and said latest information indicating the downlink SPS activation PDCCH in the TPC command field is determined on the second uplink carrier may be configured to send the HARQ-ACK The PUCCH resource of the feedback information.
具体来讲, 第二方案中, UE可以通过 PUCCH format lb的格式来反馈检 测结果, 具体的该格式可以是 PUCCH format lb with channel selection, 然后 Specifically, in the second solution, the UE may feed back the detection result by using the format of the PUCCH format lb, and the specific format may be PUCCH format lb with channel selection, and then
UE 根据网络设备预先配置的信道选择方案来确定最终是在哪个上行载波上 发送 PUCCH format lb, 3GPP协议中规定了信道选择方案的内容, 下面举例 说明该方案的实现过程: The UE determines, according to the pre-configured channel selection scheme of the network device, which uplink carrier is finally sent the PUCCH format lb, and the content of the channel selection scheme is specified in the 3GPP protocol. The following describes the implementation process of the scheme:
步骤一、 UE根据表 1以及上述方法确定 A个可用于发送 HARQ-ACK反 馈信息的 PUCCH资源, 表 1为 TB和 HARQ-ACK反馈信息的映射表, 该 PUCCH 资源是第一小区的第一上行载波的资源和第二小区的第二上行载波 的资源, 可以认为 A=在第一小区上配置的传输模式最多支持的传输块 (Transport Block, 简称 TB) 数 +在第二小区上配置的传输模式最多支持的 TB数。 需要说明的是, 表 1是一个示范, 可以根据相同的原则设计其他形式 的表。 Step 1: The UE determines a PUCCH resource that can be used to send HARQ-ACK feedback information according to Table 1 and the foregoing method. Table 1 is a mapping table of TB and HARQ-ACK feedback information, where the PUCCH resource is the first uplink of the first cell. The resource of the carrier and the resource of the second uplink carrier of the second cell may be considered as A = the number of transport blocks (TB) supported by the transmission mode configured on the first cell + the transmission configured on the second cell The maximum number of TBs supported by the mode. It should be noted that Table 1 is an example, and other forms of tables can be designed according to the same principle.
表 1 Table 1
其中, HARQ-ACKG)表示对应于第一小区或第二小区中的 TB需要进行 Wherein, HARQ-ACKG) indicates that the TB corresponding to the first cell or the second cell needs to be performed.
HARQ-ACK反馈, 因此根据各小区中配置的传输模式最多支持的 TB块数, 即可确定有多少个可用于发送 HARQ-ACK反馈信息的 PUCCH资源。 The HARQ-ACK is fed back. Therefore, according to the maximum number of TB blocks supported by the transmission mode configured in each cell, it is possible to determine how many PUCCH resources are available for transmitting HARQ-ACK feedback information.
以 A=3 的情况为例进行说明, UE根据传输模式的配置情况, 可以获知 在 A=3的情况下, 在第一服务小区中有两个可用的 PUCCH资源, 在第二服 务小区中有一个可用的 PUCCH资源。 如果 UE检测到的是第一类下行数据, 则发送 HARQ-ACK(O)的 PUCCH的资源索引 通过 = "CCE + ^CCH计 算获取, 发送 HARQ-ACK(l)的 PUCCH 的资源索引 "^∞Η,;' +1通过 ^H,;+1 = "CCE +1 + A«CCH计算获取, 其中, "CCE为在所述第一下行载波或所述 第二下行载波上, 调度的所述 PDSCH的所述 PDCCH的第一个控制信道元素
CCE的序号或者所述释放下行 SPS的 PDCCH的第一个 CCE的序号, 为网络设备配置的对应该载波的参数; 如果 UE 检测到的是第二类下行数 据, 则根据网络设备配置的在第一上行载波或第二上行载波上的可用于反馈 第二类下行数据的检测结果的 PUCCH资源和最近的一个指示下行 SPS激活 的 PDCCH中的 TPC命令字段的信息确定发送 HARQ-ACK(O)的 PUCCH的资 源索引 "^ccw和发送 HARQ-ACK(l)的 PUCCH的资源索引 " ∞Η,;' +1。 The case of A=3 is taken as an example. According to the configuration of the transmission mode, the UE can know that in the case of A=3, there are two available PUCCH resources in the first serving cell, and in the second serving cell. One available PUCCH resource. If the UE detects the first type of downlink data, the resource index of the PUCCH that transmits the HARQ-ACK (0) is obtained by = " CCE + ^CCH calculation, and the resource index of the PUCCH that sends the HARQ-ACK (1)" Η ,; ' +1 is obtained by ^ H , ; +1 = " CCE +1 + A« CCH calculation, where "CCE is on the first downlink carrier or the second downlink carrier, the scheduling station The first control channel element of the PDCCH of the PDSCH The sequence number of the CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS is a parameter corresponding to the carrier configured by the network device; if the UE detects the second type of downlink data, according to the configuration of the network device The information of the PUCCH resource on the uplink carrier or the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the latest one of the TPC command fields in the PDCCH indicating the downlink SPS activation determine the transmission of the HARQ-ACK (0) The resource index of the PUCCH "^ccw and the resource index of the PUCCH that transmits the HARQ-ACK (1)"∞Η,;' +1 .
通过上述方法, UE 可以获取到在第一小区和第二小区内对应于下行数 据的 PUCCH资源。 需要说明的是, 在第二方案中 UE获取第一小区和第二小 区内对应于下行数据的 PUCCH资源的方法不限于上述方法。 Through the above method, the UE can acquire PUCCH resources corresponding to the downlink data in the first cell and the second cell. It should be noted that, in the second scheme, the method for the UE to acquire the PUCCH resources corresponding to the downlink data in the first cell and the second cell is not limited to the foregoing method.
步骤二、 UE 根据表 2-表 4 以及检测下行数据的结果确定最终发送 HARQ-ACK反馈信息的 PUCCH资源, 表 2为 A为 2时信道选择配置表, 表 3为 A为 3时信道选择配置表, 表 4为 A为 4时信道选择配置表。 Step 2: The UE determines the PUCCH resource that finally sends the HARQ-ACK feedback information according to Table 2 - Table 4 and the result of detecting the downlink data. Table 2 shows the channel selection configuration table when A is 2, and Table 3 shows the channel selection configuration when A is 3. Table, Table 4 is a channel selection configuration table when A is 4.
表 2 Table 2
HARQ-ACK(O) HARQ-ACK(l) HARQ-ACK(2) "PUCCH b(0)b(l) HARQ-ACK(O) HARQ-ACK(l) HARQ-ACK(2) "PUCCH b(0)b(l)
ACK ACK ACK 1,1ACK ACK ACK 1,1
ACK NACK/DTX ACK „(D ACK NACK/DTX ACK „(D
1,0 1,0
NACK/DTX ACK ACK 0,1NACK/DTX ACK ACK 0,1
NACK/DTX NACK/DTX ACK 1,1NACK/DTX NACK/DTX ACK 1,1
ACK ACK NACK/DTX 1,1ACK ACK NACK/DTX 1,1
ACK NACK/DTX NACK/DTX 1,0ACK NACK/DTX NACK/DTX 1,0
NACK/DTX ACK NACK/DTX 0,1NACK/DTX ACK NACK/DTX 0,1
NACK/DTX NACK/DTX NACK 0,0NACK/DTX NACK/DTX NACK 0,0
NACK NACK/DTX DTX 0,0
NACK/DTX NACK DTX 0,0NACK NACK/DTX DTX 0,0 NACK/DTX NACK DTX 0,0
DTX DTX DTX 无传输 DTX DTX DTX no transmission
表 4 Table 4
以表 3所示的 A=3的情况为例, 如果 UE检测到第一小区的 TBI和 TB2 以及第二小区的 TBI, 且三个 TB都校验正确, 根据表 3第二行的配置, 可 以将 PUCCH format lb中的两个 HARQ-ACK比特位¾,(1)填为 1,1, 通过与第 一小区的 TB2对应的那个 PUCCH资源发送 HARQ-ACK反馈信息; 如果 UE 检测到第一小区的 TBI和 TB2以及第二小区的 TBI, 且第一小区的 TBI和 TB2校验正确, 第二小区的 TBI校验错误, 根据表 3第六行的配置, 可以将 PUCCH format lb中的两个 HARQ-ACK比特位¾,«填为 1,1, 通过与第一小 \^≠ ττ¾ι ^IN ≠ ¾R小 τ ^rrv^ ¾? ΜΔ^Π.ΔΠ^ Η 自― Τ ^rrv^≠ ¾?
源索弓 I通过上述方法已经计算获得。 Taking the case of A=3 shown in Table 3 as an example, if the UE detects the TBI and TB2 of the first cell and the TBI of the second cell, and all three TBs are verified correctly, according to the configuration of the second row of Table 3, PUCCH format lb in two HARQ-ACK bits may be bits ¾, (1) fill 1,1, transmitting HARQ-ACK feedback information via the PUCCH resources corresponding to the first cell TB2; if the UE detects the first The TBI and TB2 of the cell and the TBI of the second cell, and the TBI and TB2 of the first cell are correctly verified, and the TBI check of the second cell is incorrect. According to the configuration of the sixth row of Table 3, two of the PUCCH format lbs can be The HARQ-ACK bit is 3⁄4 , «filled in 1,1, and the first small \^≠ ττ3⁄4ι ^IN ≠ 3⁄4R small τ ^rrv^ 3⁄4? ΜΔ^Π.ΔΠ^ Η from Τ r ^rrv^≠ 3⁄4 ? The source cable I has been calculated by the above method.
本实施例, 通过信道选择方案使 UE在第一上行载波或第二上行载波上 发送 PUCCH format lb, 以对多个小区的下行数据进行反馈, 不但减轻上行 载波的负载, 解决现有技术中 UE只在 PCell的 PUCCH上反馈 HARQ-ACK 信息导致 PCell 的上行载波负载过重的问题, 而且将多个信息通过上行载波 资源和 HARQ-ACK反馈信息结合的方式一次将下行数据的检测结果反馈给 网络设备提高传输性能。 In this embodiment, the UE sends the PUCCH format lb on the first uplink carrier or the second uplink carrier by using the channel selection scheme, so as to feedback the downlink data of multiple cells, which not only reduces the load of the uplink carrier, but also solves the UE in the prior art. The feedback of the HARQ-ACK information on the PUCCH of the PCell only causes the uplink load of the PCell to be overloaded, and the multiple downlink information is combined with the HARQ-ACK feedback information to feed back the detection result of the downlink data to the network. The device improves transmission performance.
图 4为本发明上行控制信道传输方法实施例四的流程图, 如图 4所示, 本实施例的方法可以包括: 4 is a flowchart of Embodiment 4 of an uplink control channel transmission method according to the present invention. As shown in FIG. 4, the method in this embodiment may include:
步骤 401、 在第一下行载波上检测到第一类下行数据; Step 401: Detect a first type of downlink data on the first downlink carrier.
本实施例的执行主体为 UE。 UE在第一下行载波上检测到第一类下行数 据, 即 UE在第一小区的第一下行载波上检测到由 PDCCH调度的 PDSCH或 者释放下行半 SPS的 PDCCH, 这对这两种数据 UE需要向网络设备反馈检测 结果。 The execution body of this embodiment is a UE. The UE detects the first type of downlink data on the first downlink carrier, that is, the UE detects the PDSCH scheduled by the PDCCH or releases the PDCCH of the downlink half SPS on the first downlink carrier of the first cell, where the two types of data are used. The UE needs to feed back the detection result to the network device.
步骤 402、 根据第一下行载波以及第一类下行数据, 采用第三方案确定 发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索引。 Step 402: Determine, according to the first downlink carrier and the first type of downlink data, a format of a PUCCH that sends HARQ-ACK feedback information, and a resource index of the PUCCH.
本实施例中, UE 检测到的是第一类下行数据, 采用第三方案确定发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索引, 第三方案包 括: In this embodiment, the UE detects the first type of downlink data, and uses the third scheme to determine the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH. The third solution includes:
根据所述第一类下行数据中的所述 PDCCH确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH 的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; Determining, according to the PDCCH in the first type of downlink data, that the format of the PUCCH that sends the HARQ-ACK feedback information is a third format or a second format, where the third format is a PUCCH format la, The second format is PUCCH format lb;
根据公式
( 1 ) 计算获取对应于第一天线端口的所 述 PUCCH 的资源索引 U∞H, 其中, "CCE为在所述第一下行载波或所述第二 下行载波上, 调度的所述 PDSCH的所述 PDCCH的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS的 PDCCH的第一个 CCE的序号, 1CCH为网 络设备配置的参数; According to the formula (1) calculating a resource index U∞H of the PUCCH corresponding to the first antenna port, where “ CCE is on the first downlink carrier or the second downlink carrier, scheduling the PDSCH The sequence number of the first control channel element CCE of the PDCCH or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, 1 CCH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 H = "CCE +1 + (2) 计 算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 If the network device uses two antennas, the resource index "^H of the PUCCH corresponding to the second antenna port is obtained according to the formula H = " CCE +1 + (2).
具体来讲, 第三方案中, UE 可以通过 PUCCH format la 或 PUCCH
format lb的格式来反馈检测结果, 并且 UE反馈检测结果所使用的 PUCCH 资源和天线数相关, 对应于第一天线端口的 PUCCH的资源索引通过公式(1 ) 计算获取, 本实施例的 ncCE为在第一下行载波上, 调度的 PDSCH的 PDCCH 的第一个控制信道元素(Control Channel Element, 简称 CCE) 的序号或者释 放下行 SPS的 PDCCH的第一个 CCE的序号。 如果使用两个天线, 则对应于 第二天线端口的 PUCCH的资源索引通过公式 (2) 计算获取。 UE在第一下 行载波上检测到第一类下行数据, 就通过第一上行载波上的 PUCCH资源进 行反馈。 Specifically, in the third solution, the UE may pass PUCCH format la or PUCCH. The format of the format lb is used to feed back the detection result, and the PUCCH resource used by the UE to feed back the detection result is related to the number of antennas. The resource index of the PUCCH corresponding to the first antenna port is obtained by the formula (1), and the n c CE of this embodiment is obtained. The sequence number of the first Control Channel Element (CCE) of the PDCCH of the scheduled PDSCH or the sequence number of the first CCE of the PDCCH that releases the downlink SPS on the first downlink carrier. If two antennas are used, the resource index of the PUCCH corresponding to the second antenna port is obtained by the calculation of equation (2). The UE detects the first type of downlink data on the first downlink carrier, and performs feedback on the PUCCH resource on the first uplink carrier.
进一步的, UE 在所述第二下行载波上检测到网络设备发送了所述第一 类下行数据; 根据所述第二下行载波以及所述第一类下行数据, 采用第三方 案确定发送 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索 引。 Further, the UE detects that the network device sends the first type of downlink data on the second downlink carrier, and determines, according to the second downlink carrier and the first type of downlink data, that the HARQ is sent by using the third scheme. The format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH.
图 5为本发明上行控制信道传输方法实施例五的流程图, 如图 5所示, 本实施例的方法可以包括: FIG. 5 is a flowchart of Embodiment 5 of the method for transmitting an uplink control channel according to the present invention. As shown in FIG. 5, the method in this embodiment may include:
步骤 501、 在第一下行载波上检测到第二类下行数据; Step 501: A second type of downlink data is detected on the first downlink carrier.
本实施例的执行主体为 UE。 UE在第一下行载波上检测到第二类下行数 据, 即没有 PDCCH调度的 PDSCH, 通常来讲这一类 PDSCH为下行 SPS调 度方式发送的下行数据, 网络设备只在激活下行 SPS时发送 PDCCH, 直到 释放下行 SPS时再次发送 PDCCH, 在这期间 PDSCH使用的资源都是由最近 的一次激活下行 SPS时发送的 PDCCH来调度的, 资源相对固定。 The execution body of this embodiment is a UE. The UE detects the second type of downlink data on the first downlink carrier, that is, the PDSCH without the PDCCH scheduling. Generally, the PDSCH is the downlink data sent by the downlink SPS scheduling mode, and the network device sends the PDCCH only when the downlink SPS is activated. The PDCCH is transmitted again until the downlink SPS is released. During this period, the resources used by the PDSCH are all scheduled by the PDCCH sent when the downlink SPS is activated last time, and the resources are relatively fixed.
步骤 502、 根据第一下行载波以及第二类下行数据, 采用第四方案确定 发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索引。 Step 502: Determine, according to the first downlink carrier and the second type of downlink data, a format of a PUCCH that sends HARQ-ACK feedback information, and a resource index of the PUCCH.
本实施例中, UE 检测到的是第二类下行数据, 采用第四方案确定发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索引, 第四方案包 括: In this embodiment, the UE detects the second type of downlink data, and uses the fourth scheme to determine the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH. The fourth solution includes:
确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所述第三格 式或所述第二格式; 根据网络设备配置的在所述第一上行载波或所述第二上 行载波上的至少一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC 命令字段的信息确定对应于第一天线端口的所述第一上行载波或所述第二上
行载波的所述 PUCCH的资源索引 "^¾^和对应于第二天线端口的所述第一上 行载波或所述第二上行载波的所述 PUCCH的资源索引 。 Determining, in the third format or the second format, the format of the PUCCH that sends the HARQ-ACK feedback information, at least on the first uplink carrier or the second uplink carrier configured according to a network device And the information of the PUCCH resource that can be used to feed back the detection result of the second type of downlink data and the latest one of the TPC command fields in the PDCCH indicating the downlink SPS activation determines the corresponding to the first antenna port First uplink carrier or the second uplink a resource index of the PUCCH of the row carrier and a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
具体来讲, 第四方案中, UE 可以通过 PUCCH format la 或 PUCCH format lb的格式来反馈检测结果, 并且 UE反馈检测结果所使用的 PUCCH 资源同样和天线数相关, UE根据最近的一次网络设备激活下行 SPS时发送 的 PDCCH中的 TPC命令字段的信息结合网络设备配置的在第一上行载波上 可用于反馈第二类下行数据的检测结果的 PUCCH资源, 最终确定对应于第 一天线端口和第二天线端口的 PUCCH的资源索引。 UE在第一下行载波上检 测到第二类下行数据, 就通过第一上行载波上的 PUCCH资源进行反馈。 Specifically, in the fourth solution, the UE may feed back the detection result in the format of the PUCCH format la or the PUCCH format lb, and the PUCCH resource used by the UE to feed back the detection result is also related to the number of antennas, and the UE is activated according to the latest network device. The information about the TPC command field in the PDCCH sent by the downlink SPS is combined with the PUCCH resource configured by the network device to be used for feeding back the detection result of the second type of downlink data on the first uplink carrier, and finally determining corresponding to the first antenna port and the second Resource index of the PUCCH of the antenna port. The UE detects the second type of downlink data on the first downlink carrier, and performs feedback through the PUCCH resource on the first uplink carrier.
进一步的, UE在所述第二下行载波上检测到网络设备发送了所述第二 类下行数据; 根据所述第二下行载波以及所述第二类下行数据, 采用第四方 案确定发送 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索 引。 Further, the UE detects, on the second downlink carrier, that the network device sends the second type of downlink data. According to the second downlink carrier and the second type of downlink data, the fourth scheme is used to determine to send the HARQ- The format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH.
上述图 4和图 5所示的实施例, UE在哪个下行载波上检测到下行数据, 就通过相应的方案在该下行载波对应的上行载波上确定发送 HARQ-ACK反 馈信息的 PUCCH的格式和资源索引, 即 UE在第一下行载波检测到下行数据 就在第一上行载波上反馈, UE在第二下行载波上检测到下行数据就在第二 上行载波上反馈, 根据下行数据的类型不同, 计算 PUCCH的资源索引的方 案不同, 这样一来 UE不必集中在一个上行载波上进行反馈, 而是进行了负 载均衡, 解决现有技术中 UE只在 PCell的 PUCCH上反馈 HARQ-ACK信息 导致 PCdl的上行载波负载过重的问题, 提高传输性能。 In the embodiment shown in FIG. 4 and FIG. 5, on which downlink carrier the UE detects the downlink data, the format and resources of the PUCCH that send the HARQ-ACK feedback information are determined on the uplink carrier corresponding to the downlink carrier by using a corresponding scheme. The index is that the UE feeds back the first uplink carrier when the downlink data is detected by the first downlink carrier, and the UE feeds back the downlink data on the second downlink carrier, and the UE feeds back the second uplink carrier according to the type of the downlink data. The scheme for calculating the resource index of the PUCCH is different. Therefore, the UE does not need to focus on one uplink carrier for feedback, but performs load balancing. In the prior art, the UE only feeds back HARQ-ACK information on the PUCCH of the PCell, resulting in PCdl. The problem of excessive uplink load is increased, and the transmission performance is improved.
进一步的, 上述图 4和图 5所示的实施例是 UE只在第一下行载波或第 二下行载波上检测到下行数据, 同样的, 该方法适用于 UE在第一下行载波 和第二下行载波上同时检测到下行数据, UE 根据检测到的下行数据的类型 在下行载波对应的上行载波上进行反馈。 Further, the foregoing embodiment shown in FIG. 4 and FIG. 5 is that the UE detects downlink data only on the first downlink carrier or the second downlink carrier. Similarly, the method is applicable to the UE in the first downlink carrier and the first The downlink data is simultaneously detected on the downlink carrier, and the UE performs feedback on the uplink carrier corresponding to the downlink carrier according to the type of the detected downlink data.
进一步的, 在上述图 1〜图 5 所示的方法实施例中, UE 确定了发送 HARQ-ACK反馈信息的 PUCCH的格式、 PUCCH的资源索引之后, 还需要 UE确定 PUCCH的功控信息, 实现方法可以是: 若确定在所述第一上行载波 上发送所述 HARQ-ACK 反馈信息, 则根据所述第一下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息; 若确
定在所述第二上行载波上发送所述 HARQ-ACK反馈信息, 则根据所述第二 下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH 的功控信息。 Further, in the foregoing method embodiment shown in FIG. 1 to FIG. 5, after determining the format of the PUCCH for transmitting the HARQ-ACK feedback information and the resource index of the PUCCH, the UE further needs the UE to determine the power control information of the PUCCH, and the implementation method is implemented. The method may be: if it is determined that the HARQ-ACK feedback information is sent on the first uplink carrier, acquiring the PUCCH according to the information of the TPC command field in the PDCCH on the first downlink carrier Power control information; And sending the HARQ-ACK feedback information on the second uplink carrier, and acquiring the power control information of the PUCCH according to the information of the TPC command field in the PDCCH on the second downlink carrier.
具体来讲, UE在确定了发送 HARQ-ACK反馈信息的 PUCCH的格式和 资源索引之后, 还需要对该 PUCCH进行功控, 以确保网络设备能接收到该 PUCCH 并正确解码, UE 进行功控的依据来自于检测到的下行数据的 PDCCH中的 TPC命令字段的信息, 如果是第一类下行数据, 则该 PDCCH 为调度 PDSCH的 PDCCH, 或者为网络设备释放下行 SPS发送的 PDCCH, 如果是第二类下行数据, 则该 PDCCH为最近的一个网络设备指示下行 SPS 激活的 PDCCH。 UE确定在哪个上行载波上发送 HARQ-ACK反馈信息, 就 根据与该上行载波对应的下行载波上发送的 PDCCH中的 TPC命令字段的信 息。 Specifically, after determining the format and resource index of the PUCCH that sends the HARQ-ACK feedback information, the UE needs to perform power control on the PUCCH to ensure that the network device can receive the PUCCH and correctly decode the UE, and the UE performs power control. According to the information of the TPC command field in the PDCCH from the detected downlink data, if it is the first type of downlink data, the PDCCH is the PDCCH for scheduling the PDSCH, or the PDCCH for the downlink SPS is released by the network device, if it is the second For downlink data, the PDCCH is the PDCCH indicating the downlink SPS activation of the nearest one. The UE determines on which uplink carrier to transmit HARQ-ACK feedback information, based on the information of the TPC command field in the PDCCH transmitted on the downlink carrier corresponding to the uplink carrier.
这样, eNodeB在下行载波为 UE发送下行数据后, 无论 UE在各载波上 对数据的检测结果如何, 无论 UE 采用第几方案确定反馈 HARQ-ACK 的 PUCCH信道的格式是 PUCCH format 3、 PUCCH format la或者 PUCCH format lb, eNodeB都在下行载波上用相同的 TPC命令字控制对应小区的上 行载波 PUCCH的发射功率, 解决了 PUCCH功率控制错误的问题。 In this way, after the downlink carrier transmits downlink data for the UE, regardless of the detection result of the data on the UE by the UE, the format of the PUCCH channel in which the UE determines the feedback HARQ-ACK by using the scheme is PUCCH format 3, PUCCH format la Or the PUCCH format lb, the eNodeB controls the transmit power of the uplink carrier PUCCH of the corresponding cell by using the same TPC command word on the downlink carrier, and solves the problem of PUCCH power control error.
图 6为本发明上行控制信道传输方法实施例六的流程图, 如图 6所示, 本实施例的方法可以包括: FIG. 6 is a flowchart of Embodiment 6 of an uplink control channel transmission method according to the present invention. As shown in FIG. 6, the method in this embodiment may include:
步骤 601、 为用户设备 UE配置发送混合自动重传请求 HARQ-ACK反馈 信息的物理上行控制信道 PUCCH的第一上行载波和第二上行载波; Step 601: Configure, for the user equipment UE, the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information.
本实施例的执行主体为网络设备。 网络设备需要为 UE配置哪个是第一 上行载波, 哪个是第二上行载波, 以及第一上行载波对应的第一小区和第二 上行载波对应的第二小区, 在后续的操作中网络设备和 UE就可以准确的获 取到发送 HARQ-ACK反馈信息的 PUCCH资源。 The execution body of this embodiment is a network device. The network device needs to configure, for the UE, which is the first uplink carrier, which is the second uplink carrier, and the first cell corresponding to the first uplink carrier and the second cell corresponding to the second uplink carrier, and the network device and the UE in subsequent operations. The PUCCH resource that sends the HARQ-ACK feedback information can be accurately obtained.
步骤 602、 通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于 发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Step 602: Send downlink data to the UE by using a downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information.
本实施例中, 所述下行载波包括属于第一小区的第一下行载波和 /或属 于第二小区的第二下行载波和 /或至少一个属于其它小区的下行载波, 所述 下行数据为第一类下行数据或者第二类下行数据, 所述第一类下行数据为由
物理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH或者释放下 行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH。 网络设备向 UE发送下行数据, 下行载波包括第一小区的第一下行 载波, 第二小区的第二下行载波, 其它小区的下行载波, 网络设备发送的下 行数据分为两类, 一类是有 PDCCH 调度的 PDSCH 或释放下行 SPS 的 PDCCH, 前者可以认为是动态调度状态下, 每次网络设备发送下行数据都 会在在下行载波的 PDCCH上携带上 PDSCH的资源信息, 后者网络设备在激 活下行 SPS时向 UE发送一个 PDCCH, 告知 UE在后续的一段时间内网络设 备会根据固定的资源发送 PDSCH, 然后网络设备在释放下行 SPS时再向 UE 发送一个 PDCCH, 告知 UE下行 SPS调度方式结束; 另一类是没有 PDCCH 调度的 PDSCH, 可以认为这一类数据即下行 SPS调度, 网络设备在激活下 行 SPS时已经预先分配了 PDSCH的资源, 因此在后续一段时间内, 网络设 备将会使用相同的资源发送下行数据。 网络设备在发送下行数据后需要确定 UE针对下行数据反馈 HARQ-ACK信息的 PUCCH资源, 例如, 网络设备在 第一下行载波和第二下行载波上都向 UE发送了下行数据, UE具体在哪个上 行载波上发送 HARQ-ACK反馈信息网络设备是不知道的, 因此网络设备认 为 UE在第一上行载波和第二上行载波上都有可能会发送 HARQ-ACK反馈信 息, 因此网络设备确定的 PUCCH 资源即包括第一上行载波和第二上行载 波。 In this embodiment, the downlink carrier includes a first downlink carrier that belongs to the first cell, and/or a second downlink carrier that belongs to the second cell, and/or at least one downlink carrier that belongs to another cell, where the downlink data is a type of downlink data or a second type of downlink data, wherein the first type of downlink data is The physical downlink shared data channel PDSCH of the physical downlink control channel PDCCH scheduling or the PDCCH that releases the downlink semi-persistent scheduling SPS, and the second type of downlink data is a PDSCH without PDCCH scheduling. The network device sends the downlink data to the UE, where the downlink carrier includes the first downlink carrier of the first cell, the second downlink carrier of the second cell, and the downlink carrier of the other cell, and the downlink data sent by the network device is classified into two types, one type is The PDSCH with the PDCCH scheduling or the PDCCH for releasing the downlink SPS, the former can be considered as the dynamic scheduling state. Each time the network device sends the downlink data, the resource information of the PDSCH is carried on the PDCCH of the downlink carrier, and the network device is activated in the downlink. When the SPS sends a PDCCH to the UE, the UE is notified that the network device sends the PDSCH according to the fixed resource, and then the network device sends a PDCCH to the UE when the downlink SPS is released, and the UE is notified that the downlink SPS scheduling mode ends. One type is a PDSCH without PDCCH scheduling. It can be considered that this type of data is downlink SPS scheduling. The network device has pre-allocated PDSCH resources when activating the downlink SPS. Therefore, the network device will use the same resource for a later period of time. Send downlink data. The network device needs to determine the PUCCH resource that the UE feeds back the HARQ-ACK information for the downlink data after the downlink data is sent. For example, the network device sends the downlink data to the UE on the first downlink carrier and the second downlink carrier, where the UE is specifically located. The network device that sends the HARQ-ACK feedback information on the uplink carrier is not known. Therefore, the network device considers that the UE may send the HARQ-ACK feedback information on the first uplink carrier and the second uplink carrier, and therefore the PUCCH resource determined by the network device. That is, the first uplink carrier and the second uplink carrier are included.
步骤 603、 根据确定的所述 PUCCH资源检测所述 UE在上行载波上发送 的所述 HARQ-ACK反馈信息。 Step 603: Detect, according to the determined PUCCH resource, the HARQ-ACK feedback information sent by the UE on an uplink carrier.
本实施例中, 所述上行载波包括属于所述第一小区的第一上行载波和 / 或属于所述第二小区的第二上行载波。 网络设备根据确定的 UE可能会发送 HARQ-ACK反馈信息的 PUCCH资源, 检测 UE发送的 HARQ-ACK反馈信 息, 具体来讲, 网络设备会在确定的 PUCCH 资源上逐个检测, 这里的 PUCCH资源至少有一个, 只要 UE在任何一载波上检测到两种类型数据中的 任何一种下行数据, 都会在其中的某一个 PUCCH资源上进行反馈, 网络设 备负责将该反馈信息检测出来并解析以确定下一步的操作。 这里网络设备配 置的 UE可用于发送 HARQ-ACK反馈信息的上行载波包括第一上行载波和第 二上行载波。
本实施例, 通过网络设备在下行载波上向 UE发送下行数据, 并配置 UE 可以通过第一上行载波和 /或第二上行载波上发送 HARQ-ACK反馈信息, 以 对多个小区的下行数据进行反馈, 减轻上行载波的负载, 解决现有技术中 UE只在 PCell的 PUCCH上反馈 HARQ-ACK信息导致 PCell的上行载波负载 过重的问题, 提高通信性能。 In this embodiment, the uplink carrier includes a first uplink carrier that belongs to the first cell and/or a second uplink carrier that belongs to the second cell. The network device detects the HARQ-ACK feedback information sent by the UE according to the determined PUCCH resource that the UE may send the HARQ-ACK feedback information. Specifically, the network device detects the PUCCH resources on the determined PUCCH resources, where the PUCCH resources are at least One, as long as the UE detects any one of the two types of data on any carrier, it will feed back on one of the PUCCH resources, and the network device is responsible for detecting the feedback and parsing to determine the next step. Operation. The uplink carrier that the UE configured by the network device to send the HARQ-ACK feedback information includes the first uplink carrier and the second uplink carrier. In this embodiment, the network device sends downlink data to the UE on the downlink carrier, and configures the UE to send the HARQ-ACK feedback information on the first uplink carrier and/or the second uplink carrier to perform downlink data of multiple cells. The feedback reduces the load of the uplink carrier, and solves the problem that the UE only feeds the HARQ-ACK information on the PUCCH of the PCell in the prior art, causing the uplink load of the PCell to be overloaded, and improving the communication performance.
进一步的, 在上述方法实施例的步骤 601 之前, 还包括预先为所述 UE 配置发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为 PUCCH格式 format 3以及所述 UE发送所述 PUCCH format 3的信道资源。 具体来讲, 网 络设备在开始下行调度之前, 预先配置 UE是按照 PUCCH format 3的格式来 进行 HARQ-ACK反馈的, 并且预先为 UE分配了发送 PUCCH format 3的信 道资源, 这是一个预配置的过程, 在后续的具体下行数据发送过程中, UE 可能会根据下行数据中的 PDCCH再具体调整发送 PUCCH的资源。 Further, before the step 601 of the foregoing method embodiment, the method further includes: pre-configuring, for the UE, the format of the PUCCH that sends the HARQ-ACK feedback information to be a PUCCH format format 3, and sending, by the UE, the PUCCH format 3 Channel resources. Specifically, before starting the downlink scheduling, the network device pre-configures that the UE performs HARQ-ACK feedback according to the format of the PUCCH format 3, and allocates a channel resource for transmitting the PUCCH format 3 to the UE in advance, which is a pre-configured In the subsequent specific downlink data transmission process, the UE may further adjust the resource for transmitting the PUCCH according to the PDCCH in the downlink data.
进一步的, 上述方法实施例的步骤 601通过下行载波向用户设备 UE发 送下行数据, 确定所述 UE可用于发送混合自动重传请求 HARQ-ACK反馈信 息的物理上行控制信道 PUCCH资源, 具体的实现方法可以是: 通过 个所 述下行载波向所述 UE发送所述下行数据, 然后假设所述 UE在 N2个所述下 行载波上检测到了所述下行数据, 确定出 N3种所述 UE 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述 、 Ν^Ρ Ν3为自然数, 且 N2 < N N, ≤ ∑ CM M ,上述方法实施例的步骤 602根据确定的所述 PUCCH资 源检测所述 ufi¾E上行载波上发送的所述 HARQ-ACK反馈信息,具体的实现 方法可以是: 根据所述确定出 N3种所述 UE可用于发送所述 HARQ-ACK反 馈信息的所述 PUCCH 资源检测所述 UE 在上行载波上发送的所述 HARQ-ACK反馈信息。 Further, the step 601 of the foregoing method embodiment sends the downlink data to the user equipment UE by using the downlink carrier, and determines the physical uplink control channel PUCCH resource that the UE can use to send the hybrid automatic repeat request HARQ-ACK feedback information, and the specific implementation method The method may be: sending the downlink data to the UE by using the downlink carrier, and then determining that the downlink data is detected by the UE on the N 2 downlink carriers, determining that the N 3 types of the UE are available. Sending the PUCCH resource of the HARQ-ACK feedback information, where Ν^Ρ Ν 3 is a natural number, and N 2 < NN, ≤ ∑ C M M , step 602 of the foregoing method embodiment is based on the determined PUCCH the HARQ-ACK feedback information transmitted specific method of detecting the resource on the uplink carrier may be ufi¾E: based on the determination that the UE N 3 species can be used for transmitting the HARQ-ACK of the feedback information in the PUCCH The resource detects the HARQ-ACK feedback information sent by the UE on an uplink carrier.
具体来讲, 网络设备可以通过 个下行载波向 UE发送下行数据, 这里 的 个下行载波包括第一下行载波、 第二下行载波、 其它小区的下行载波, 并且每种下行载波的个数不定, 可以为 0, 也可以是大于 0的自然数, 此处 不做具体限定。 然后网络设备假设 UE实际在 N2个下行载波上检测到了下行 数据, 例如, 网络设备在第一下行载波和第二下行载波上同时向 UE发送了 下行数据, 可以假设 UE只在第一下行载波上检测到下行数据, 也可以假设 UE在两个下行载波上都检测到下行数据,这是由于数据在传输过程中可能会
出现数据丢失、 或信号太弱导致 UE检测不到数据的情况, 而这些是网络设 备无法获知的, 因此网络设备要假设出各种检测结果, 再根据假设的情况确 定出 ^种 UE可用于发送 HARQ-ACK反馈信息的所述 PUCCH资源, 这里 N2 < Ni , N3 ≤ 。网络设备根据确定的 N^t UE可用于发送 HARQ-ACK 反馈信息的 Pl¾CH资源, 逐个检测 UE的 HARQ-ACK反馈信息。 需要说明 的是, 网络设备假设 UE 在 N2个下行载波上检测到下行数据, 从而确定出 Ν^ψ PUCCH资源, 网络设备在检测的时候不一定每个 PUCCH资源都需要 检测,可能出现网络设备在第一个 PUCCH资源中就检测到了 HARQ-ACK反 馈信息, 则不需要再继续检测, 这里对于网络设备如果具体检测 HARQ-ACK 反馈信息的过程不做具体限定。 Specifically, the network device may send downlink data to the UE by using a downlink carrier, where the downlink carriers include a first downlink carrier, a second downlink carrier, and downlink carriers of other cells, and the number of each downlink carrier is indeterminate. It can be 0 or a natural number greater than 0, which is not specifically limited here. The network device then assumes that the UE actually detects the downlink data on the N 2 downlink carriers. For example, the network device sends the downlink data to the UE simultaneously on the first downlink carrier and the second downlink carrier, and the UE can be assumed to be only in the first Downlink data is detected on the line carrier. It can also be assumed that the UE detects downlink data on both downlink carriers. This is because the data may be transmitted during transmission. If the data is lost, or the signal is too weak, the UE cannot detect the data, and these are not known to the network device. Therefore, the network device assumes various detection results, and then determines that the UE can be used for sending according to the assumed situation. The PUCCH resource of the HARQ-ACK feedback information, where N 2 < Ni , N 3 ≤ . The network device detects the HARQ-ACK feedback information of the UE one by one according to the P1⁄4CH resource that the determined N^t UE can use to send the HARQ-ACK feedback information. It should be noted that the network device assumes that the UE detects the downlink data on the N 2 downlink carriers, thereby determining the PUCCH resource, and the network device does not necessarily need to detect every PUCCH resource when detecting, and the network device may appear. If the HARQ-ACK feedback information is detected in the first PUCCH resource, the detection does not need to be continued. The process of specifically detecting the HARQ-ACK feedback information is not specifically limited for the network device.
下面采用几个具体的实施例, 对图 6所示方法实施例的技术方案进行详 细说明。 The technical solutions of the method embodiment shown in FIG. 6 are described in detail below by using several specific embodiments.
图 7为本发明上行控制信道传输方法实施例七的流程图, 如图 7所示, 本实施例的方法可以包括: FIG. 7 is a flowchart of Embodiment 7 of an uplink control channel transmission method according to the present invention. As shown in FIG. 7, the method in this embodiment may include:
步骤 701、 预先为 UE配置发送 HARQ-ACK反馈信息的 PUCCH的格式 为 PUCCH format 3以及 UE发送 PUCCH format 3的信道资源; Step 701: The format of the PUCCH that is configured to send the HARQ-ACK feedback information to the UE is PUCCH format 3 and the channel resource of the PUCCH format 3 is sent by the UE.
本实施例的执行主体为网络设备。 网络设备在开始下行调度之前, 预先 为 UE配置了发送 PUCCH format 3的信道资源。 需要好说明的是, 这是一个 预配置的过程, 在后续的具体下行数据发送过程中, UE 可能会根据下行数 据中的 PDCCH再具体调整发送 PUCCH的格式。 The execution body of this embodiment is a network device. The network device configures the channel resource for transmitting the PUCCH format 3 for the UE before starting the downlink scheduling. It should be noted that this is a pre-configured process. In the subsequent specific downlink data transmission process, the UE may further adjust the format of the PUCCH according to the PDCCH in the downlink data.
步骤 702、 为 UE配置发送 HARQ-ACK反馈信息的 PUCCH的第一上行 载波和第二上行载波; Step 702: Configure, for the UE, a first uplink carrier and a second uplink carrier of the PUCCH that send the HARQ-ACK feedback information.
本实施例中, 网络设备为 UE配置发送 PUCCH所使用的哪个是第一上行 载波, 哪个是第二上行载波, 以及第一上行载波对应的第一小区和第二上行 载波对应的第二小区, 在后续的操作中网络设备和 UE就可以准确的获取到 发送 HARQ-ACK反馈信息的 PUCCH资源。 In this embodiment, the network device configures, for the UE, which of the first uplink carrier is used for transmitting the PUCCH, which is the second uplink carrier, and the first cell corresponding to the first uplink carrier and the second cell corresponding to the second uplink carrier, In subsequent operations, the network device and the UE can accurately acquire the PUCCH resource that sends the HARQ-ACK feedback information.
步骤 703、 在至少一个属于其它小区的下行载波上向 UE发送下行数据, 同时在至少一个属于其它小区的下行载波上的下行数据的 PDCCH中的 TPC 命令字段的信息中携带 UE发送 HARQ-ACK反馈信息的 PUCCH format 3的 资源索引;
本实施例中, 网络设备在至少一个属于其它小区的下行载波上向 UE发 送下行数据, 其它小区是除第一小区和第二小区之外的小区, 网络设备在其 它小区上向 UE发送下行数据, 在这种情况下, 按照网络设备和 UE预先约定 的反馈方案, UE是通过 PUCCH format 3进行 HARQ-ACK反馈的, 因此网 络设备在该下行数据的 PDCCH 中的 TPC命令字段的信息中携带 UE发送 HARQ-ACK反馈信息的 PUCCH format 3的资源索引, 该资源索引是第一上 行载波或第二上行载波上的资源索引, 即网络设备在其它小区向 UE发送了 下行数据, 理想状况下, UE 检测到了该下行数据, 仍然通过第一上行载波 或第二上行载波发送 HARQ-ACK反馈信息。 需要说明的是, 本实施例网络 设备在至少一个属于其它小区的下行载波上向 UE 发送下行数据, 除此之 夕卜, 网络设备还有可能在第一下行载波和 /或第二下行载波上向 UE发送下行 数据, 这里不做具体限定。 Step 703: Send downlink data to the UE on the downlink carrier that belongs to the other cell, and carry the HARQ-ACK feedback by the UE in the information of the TPC command field in the PDCCH of the downlink data of the at least one downlink carrier belonging to the other cell. Resource index of PUCCH format 3 of information; In this embodiment, the network device sends downlink data to the UE on at least one downlink carrier that belongs to other cells, where other cells are cells other than the first cell and the second cell, and the network device sends downlink data to the UE on other cells. In this case, according to the feedback scheme pre-agreed by the network device and the UE, the UE performs HARQ-ACK feedback through the PUCCH format 3, so the network device carries the UE in the information of the TPC command field in the PDCCH of the downlink data. a resource index of the PUCCH format 3 that sends the HARQ-ACK feedback information, where the resource index is a resource index on the first uplink carrier or the second uplink carrier, that is, the network device sends downlink data to the UE in other cells, ideally, the UE The downlink data is detected, and the HARQ-ACK feedback information is still sent through the first uplink carrier or the second uplink carrier. It should be noted that, in this embodiment, the network device sends downlink data to the UE on at least one downlink carrier that belongs to other cells. In addition, the network device may also be in the first downlink carrier and/or the second downlink carrier. The downlink data is sent to the UE, and is not specifically limited herein.
步骤 704、 假设 UE在所述至少一个属于其它小区的下行载波上检测到下 行数据, 则采用第一方案确定 UE通过 PUCCH format 3在第一上行载波或第 二上行载波上发送 HARQ-ACK反馈信息的 PUCCH资源; Step 704: If the UE detects the downlink data on the downlink carrier that belongs to the other cell, the first scenario is used to determine that the UE sends the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier by using the PUCCH format 3. PUCCH resources;
本实施例中, 网络设备假设 UE检测到了其它小区的下行载波上的下行 数据, 采用第一方案确定 UE发送 HARQ-ACK反馈信息的 PUCCH format 3 资源, 第一方案包括: In this embodiment, the network device assumes that the UE detects the downlink data on the downlink carrier of the other cell, and uses the first scheme to determine the PUCCH format 3 resource that the UE sends the HARQ-ACK feedback information. The first solution includes:
根据在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息确定所述 UE发送所述 HARQ-ACK反馈信 息的所述 PUCCH format 3的资源索引。 Determining, by the information of the TPC command field in the PDCCH of the downlink data on the downlink carrier that belongs to the other cell, a resource index of the PUCCH format 3 that the UE sends the HARQ-ACK feedback information.
具体来讲, 网络设备在至少一个属于其它小区的下行载波上的下行数据 中已经携带了 PUCCH的资源索引, 即该下行数据的 PDCCH中的 TPC命令 字段的信息, 网络设备再根据这个 TPC 命令字段的信息确定 UE 发送 HARQ-ACK反馈信息的 PUCCH资源。 Specifically, the network device has carried the resource index of the PUCCH in the downlink data of the at least one downlink carrier that belongs to the other cell, that is, the information of the TPC command field in the PDCCH of the downlink data, and the network device further uses the TPC command field according to the TPC command field. The information determines the PUCCH resource that the UE sends the HARQ-ACK feedback information.
步骤 705、 根据确定的 PUCCH 资源检测 UE 在上行载波上发送的 HARQ-ACK反馈信息。 Step 705: Detect, according to the determined PUCCH resource, HARQ-ACK feedback information sent by the UE on the uplink carrier.
本实施例中, 网络设备根据在步骤 704中确定的 PUCCH资源, 检测 UE 发送的 HARQ-ACK反馈信息。 In this embodiment, the network device detects the HARQ-ACK feedback information sent by the UE according to the PUCCH resource determined in step 704.
本实施例, 网络设备在其它小区的下行载波上向 UE发送了下行数据,
并在该下行数据的 PDCCH 中的 TPC 命令字段的信息中携带 UE 发送 HARQ-ACK反馈信息的 PUCCH format 3的资源索引, 指定 UE即将使用第 一上行载波或第二上行载波, 网络设备再在该 PUCCH资源上检测 UE的反馈 信息。 In this embodiment, the network device sends downlink data to the UE on downlink carriers of other cells. And the information of the TPC command field in the PDCCH of the downlink data carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information, and specifies that the UE uses the first uplink carrier or the second uplink carrier, and the network device The feedback information of the UE is detected on the PUCCH resource.
进一步的, 在上述方法实施例的步骤 704之后, 还包括网络设备在所述 第一下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC命令字段的 信息中携带所述 UE在所述第一上行载波上发送所述 HARQ-ACK反馈信息的 所述 PUCCH 的功控信息; 在所述第二下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC命令字段的信息中携带所述 UE在所述第二上行载波 上发送所述 HARQ-ACK反馈信息的所述 PUCCH的功控信息。 具体来讲, 网 络设备如果在下行载波上发送第一类下行数据, 就会在调度 PDSCH 的 PDCCH或者释放下行 SPS的 PDCCH中携带功控信息, 网络设备如果在下行 载波上发送第二类下行数据, 就会通过最近的一次指示激活下行 SPS 的 PDCCH 中携带功控信息, 特殊情况下, 即网络设备没有在第一下行载波或 第二下行载波上发送下行数据, 但会在这两个下行载波上发送带功控指令的 PDCCH, 网络设备将功控信息通过 PDCCH指示给 UE, UE在哪个对应的上 行载波上发 HARQ-ACK反馈信息就用哪个下行载波上的 PDCCH的 TPC命 令字段的信息获取 PUCCH的功控信息。 需要说明的, 无论网络设备如何向 UE发送下行数据, 都是通过上述方法向 UE指示功控信息的, 此处不做具体 限定。 由此解决了可能的 PUCCH功率控制错误的问题 Further, after the step 704 of the foregoing method embodiment, the network device further includes the UE in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier. Generating power control information of the PUCCH of the HARQ-ACK feedback information on the first uplink carrier; the TPC command field in the PDCCH in the downlink data on the second downlink carrier The information carries the power control information of the PUCCH in which the UE sends the HARQ-ACK feedback information on the second uplink carrier. Specifically, if the network device sends the first type of downlink data on the downlink carrier, the network device carries the power control information in the PDCCH for scheduling the PDSCH or the PDCCH for releasing the downlink SPS, and the network device sends the second type downlink data on the downlink carrier. The PDCCH in the downlink SPS is activated by the latest indication to carry the power control information. In special cases, the network device does not send downlink data on the first downlink carrier or the second downlink carrier, but will be in the two downlinks. The PDCCH with the power control command is sent on the carrier, and the network device indicates the power control information to the UE through the PDCCH. On which corresponding uplink carrier the UE sends the HARQ-ACK feedback information, which downlink carrier uses the TPC command field information of the PDCCH. Obtain the power control information of the PUCCH. It should be noted that, regardless of how the network device sends the downlink data to the UE, the power control information is indicated to the UE by using the foregoing method, which is not specifically limited herein. This solves the problem of possible PUCCH power control errors.
进一步的, 上述方法实施例的步骤 703~705还可有另外的情况, 网络设 备根据假设 UE 检测到下行数据的情况, 采用相应的方案确定 UE 发送 HARQ-ACK反馈信息的 PUCCH资源, 具体来讲, 有以下几种情况: Further, in another step 703-705 of the foregoing method embodiment, the network device determines, according to the scenario that the UE detects the downlink data, the corresponding solution to determine the PUCCH resource that the UE sends the HARQ-ACK feedback information, specifically , there are several situations:
第一种、 网络设备假设所述 UE 同时在所述第一下行载波和所述第二下 行载波上检测到所述下行数据且没有在属于其它小区的下行载波上检测到所 述下行数据, 则采用第二方案确定所述 UE通过 PUCCH format lb在所述第 一上行载波或所述第二上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH资源, 第二方案包括: The network device assumes that the downlink data is detected on the first downlink carrier and the second downlink carrier, and the downlink data is not detected on downlink carriers belonging to other cells. Then, the second solution is used to determine that the UE sends the PUCCH resource of the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier by using a PUCCH format lb. The second solution includes:
在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所
述 UE在所述第一上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH 资源, 确定所述 UE 在第一小区内用于发送 HARQ-ACK反馈信息的 PUCCH资源; 在所述第二小区内, 根据所述第一类 下行数据中的所述 PDCCH确定所述 UE用于发送所述 HARQ-ACK反馈信息 的 PUCCH资源, 或者, 根据为所述 UE在所述第二上行载波上配置的至少一 个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和在最近 的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的 所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 确定所述 UE 在第二小区内用于发送 HARQ-ACK反馈信息的 PUCCH资源; 为所述 UE配 置信道选择方案, 根据所述信道选择方案确定所述 UE在所述第一上行载波 或所述第二上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH format lb的资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信 息、 上行载波的资源索引、 所述 HARQ-ACK 反馈信息比特之间的对应关 系。 Determining, in the first cell, the PUCCH resource used by the UE to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or Determining, by the UE, at least one PUCCH resource that can be used to feed back the detection result of the second type of downlink data, and a TPC command field in a PDCCH indicating the downlink SPS activation on the first uplink carrier The UE configured in the information to send the PUCCH resource of the HARQ-ACK feedback information, and determine the PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or according to at least configuring the UE to be configured on the second uplink carrier. The PUCCH resource that can be used to feed back the detection result of the second type of downlink data and the UE configured in the information of a TPC command field in a PDCCH indicating the downlink SPS activation to send the HARQ- Determining, by the PUCCH resource of the ACK feedback information, a PUCCH resource used by the UE to send HARQ-ACK feedback information in the second cell; configuring a channel selection scheme for the UE, according to the channel selection scheme And determining, by the UE, a resource index of the PUCCH format lb of the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier, where the channel selection scheme includes the pre-configured HARQ- ACK feedback information, a resource index of an uplink carrier, and a correspondence between the HARQ-ACK feedback information bits.
这种情况下, 网络设备为 UE配置信道选择方案, 该信道选择方案具体 的实现方法见图 3 所示的方法实施例, 对于网络设备来讲, 由于不知道 UE 的检测结果, 而且也不确定 UE是从哪个上行载波上反馈信息, 但是网络设 备可以确定在第一小区和第二小区上配置的传输模式, 以及该传输模式支持 的 TB数, 因此对应的网络设备可以计算出每个 TB数对应的 PUCCH format lb 资源索引, 网络设备根据这些第一上行载波或第二上行载波上 PUCCH format lb资源索引, 逐个检测 UE的反馈信息。 In this case, the network device configures a channel selection scheme for the UE. The specific implementation method of the channel selection scheme is shown in the method embodiment shown in FIG. 3. For the network device, since the UE detection result is unknown, it is also uncertain. From which uplink carrier the UE feeds back information, but the network device can determine the transmission mode configured on the first cell and the second cell, and the number of TBs supported by the transmission mode, so the corresponding network device can calculate the number of TBs. Corresponding PUCCH format lb resource index, the network device detects the feedback information of the UE one by one according to the PUCCH format lb resource index on the first uplink carrier or the second uplink carrier.
第二种, 假设所述 UE在所述第一下行载波上检测到所述第一类下行数 据, 则采用第三方案确定所述 UE通过 PUCCH format la或 PUCCH format lb 在所述第一上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 第三方案包括: In the second scenario, if the UE detects the first type of downlink data on the first downlink carrier, the third scheme is used to determine that the UE is in the first uplink by using PUCCH format la or PUCCH format lb Transmitting the PUCCH resource of the HARQ-ACK feedback information on a carrier, where the third solution includes:
根据所述下行数据的所述 PDCCH 使用的资源确定所述 UE 发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Determining, by the resource used by the PDCCH of the downlink data, the PUCCH resource that is sent by the UE to the HARQ-ACK feedback information;
根据公式 (1 )
"PUCCH "CCE 1、 PUCCH \ \ ) According to formula (1) "PUCCH "CCE 1 , PUCCH \ \ )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^CH为网络设备配置的参数; Calculating a resource index of the PUCCH corresponding to the first antenna port, where the CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH releasing the downlink SPS, ^CH is a parameter configured by the network device;
:网络设备使用两个天线时, 根据公式 (2 ) : When a network device uses two antennas, according to formula (2)
^PUCCH― nCC +丄 + ^ PUCCH 2 ) ^PUCCH― n CC +丄+ ^ PUCCH 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 。 Calculating a resource index of the PUCCH corresponding to the second antenna port.
具体来讲, 网络设备假设 UE在第一下行载波上检测到的是第一类下行 数据, 则通过上述方法计算 UE在第一上行载波上反馈信息的 PUCCH的资源 索引。 可选的, 如果网络设备假设 UE在第二下行载波上检测到的是第一类 下行数据, 也可以通过上述方法计算 UE 在第二上行载波上反馈信息的 Specifically, the network device assumes that the UE detects the first type of downlink data on the first downlink carrier, and calculates a resource index of the PUCCH that the UE feeds back information on the first uplink carrier by using the foregoing method. Optionally, if the network device assumes that the UE detects the first type of downlink data on the second downlink carrier, the UE may calculate the feedback information of the UE on the second uplink carrier by using the foregoing method.
PUCCH的资源索引 PUCCH resource index
第三种、 假设所述 UE在所述第一下行载波上检测到所述第二类下行数 据, 则采用第四方案确定所述 UE通过 PUCCH format la或 PUCCH format lb 在所述第一上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 第四方案包括: Third, if the UE detects the second type of downlink data on the first downlink carrier, the fourth scheme is used to determine that the UE is in the first uplink by using PUCCH format la or PUCCH format lb Transmitting the PUCCH resource of the HARQ-ACK feedback information on a carrier, where the fourth solution includes:
确定所述 UE在所述第一上行载波或所述第二上行载波上用于反馈所述 第二类下行数据的检测结果的所述 PUCCH资源; 根据最近的一个指示所述 下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述 UE发送所 述 HARQ-ACK反馈信息对应于第一天线端口的所述第一上行载波或所述第 二上行载波的所述 PUCCH的资源索引 ^ΐ^Η和对应于第二天线端口的所述第 一上行载波或所述第二上行载波的所述 PUCCH的资源索引 "^ H。 Determining, by the UE, the PUCCH resource used to feed back the detection result of the second type of downlink data on the first uplink carrier or the second uplink carrier; according to a latest one, indicating the downlink SPS activation PDCCH The information of the TPC command field in the determining that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the resource index of the PUCCH of the second uplink carrier And a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
具体来讲, 网络设备假设 UE在第一下行载波上检测到的是第二类下行 数据, 则通过上述方法计算 UE在第一上行载波上反馈信息的 PUCCH的资源 索引。 可选的, 如果网络设备假设 UE在第二下行载波上检测到的是第二类 下行数据, 也可以通过上述方法计算 UE 在第二上行载波上反馈信息的 PUCCH的资源索引。 Specifically, the network device assumes that the UE detects the second type of downlink data on the first downlink carrier, and calculates the resource index of the PUCCH that the UE feeds back information on the first uplink carrier by using the foregoing method. Optionally, if the network device assumes that the UE detects the second type of downlink data on the second downlink carrier, the resource index of the PUCCH that is used by the UE to feed back information on the second uplink carrier may be calculated by using the foregoing method.
图 8为本发明 UE实施例一的结构示意图, 如图 8所示, 本实施例的装 置可以包括: 载波确定模块 11、 检测模块 12和资源确定模块 13, 其中, 载
波确定模块 11, 用于确定可用于发送混合自动重传请求 HARQ-ACK反馈信 息的物理上行控制信道 PUCCH 的第一上行载波和第二上行载波, 其中, 所 述第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 检测模块 12, 用于在下行载波上检测下行数据获得检测结果, 所述下行载波包括属于 第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个 属于其它小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行 数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行 共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类 下行数据为没有 PDCCH调度的 PDSCH; 资源确定模块 12, 用于根据所述检 测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH 的格式、 PUCCH的资源索引。 FIG. 8 is a schematic structural diagram of Embodiment 1 of a UE according to the present invention. As shown in FIG. 8, the apparatus in this embodiment may include: a carrier determining module 11, a detecting module 12, and a resource determining module 13, where The first determining carrier 11 is configured to determine a first uplink carrier and a second uplink carrier of the physical uplink control channel PUCCH that can be used to send the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell The second uplink carrier corresponds to the second cell, and the detecting module 12 is configured to detect downlink data to obtain a detection result on the downlink carrier, where the downlink carrier includes the first downlink carrier belonging to the first cell and/or belongs to the second The second downlink carrier of the cell and/or the at least one downlink carrier belonging to the other cell, the downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is scheduled by the physical downlink control channel PDCCH The physical downlink shared data channel PDSCH or the PDCCH that releases the downlink semi-persistent scheduling SPS, the second type of downlink data is a PDSCH without PDCCH scheduling; the resource determining module 12 is configured to determine to send the HARQ according to the detection result. The format of the PUCCH of the ACK feedback information, and the resource index of the PUCCH.
进一步的, 资源确定模块 13, 具体用于如果在所述至少一个属于其它小 区的下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信 息的所述 PUCCH的格式为第一格式, 所述第一格式为 PUCCH格式 format 3; 如果只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述第 二下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息 的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或者 PUCCH format lb。 Further, the resource determining module 13 is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is first a format, the first format is a PUCCH format format 3; if the downlink is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell Data, the format of the PUCCH that sends the HARQ-ACK feedback information is determined to be a second format, where the second format is PUCCH format la or PUCCH format lb.
本实施例的装置, 可以用于执行图 1所示方法实施例的技术方案, 其实 现原理和技术效果类似, 此处不再赘述。 The device in this embodiment can be used to implement the technical solution of the method embodiment shown in FIG. 1. The principle and the technical effect are similar, and details are not described herein again.
图 9为本发明 UE实施例二的结构示意图, 如图 9所示, 本实施例的装 置在图 8 所示装置结构的基础上, 进一步地, 还可以包括: 格式确定模块 21、 方案配置接收模块 22和功控模块 23。 FIG. 9 is a schematic structural diagram of Embodiment 2 of the UE according to the present invention. As shown in FIG. 9, the apparatus of this embodiment is based on the apparatus structure shown in FIG. 8, and further includes: a format determining module 21, and a scheme configuration receiving. Module 22 and power control module 23.
格式确定模块 21, 用于接收资源配置信息, 根据所述资源配置信息确定 通过 PUCCH format 3发送所述 HARQ-ACK反馈信息。 The format determining module 21 is configured to receive resource configuration information, and determine, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3.
进一步的, 检测模块 12, 具体用于在所述至少一个属于其它小区的下行 载波上检测到下行数据; 资源确定模块 13, 具体用于根据检测到的所述下行 数据的所述下行载波以及所述下行数据, 采用第一方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 所述第 一方案, 包括: 根据所述网络设备预先配置的所述 PUCCH format 3资源确
定所述第一小区和所述第二小区中可用于发送所述 HARQ-ACK反馈信息的 所有所述 PUCCH format 3资源; 根据在所述至少一个属于其它小区的下行 载波上检测到的所述 PDSCH的所述 PDCCH中的传输功率控制 TPC命令字 段的信息获取发送所述 HARQ-ACK反馈信息的所述 PUCCH的资源索引。 Further, the detecting module 12 is specifically configured to detect downlink data on the at least one downlink carrier that belongs to another cell, and the resource determining module 13 is specifically configured to use, according to the detected downlink carrier, the downlink carrier and the For the downlink data, the format of the PUCCH and the resource index of the PUCCH that send the HARQ-ACK feedback information are determined by using the first scheme. The first solution includes: the PUCCH format 3 resource pre-configured according to the network device Determining, in the first cell and the second cell, all of the PUCCH format 3 resources that are used to send the HARQ-ACK feedback information; according to the detected on the at least one downlink carrier belonging to another cell The information of the transmission power control TPC command field in the PDCCH of the PDSCH acquires a resource index of the PUCCH that transmits the HARQ-ACK feedback information.
进一步的, 检测模块 12, 具体用于在所述第一下行载波上检测到所述第 一类下行数据, 在所述第二下行载波上检测到所述第一类下行数据, 且没有 在属于其它小区的下行载波上检测到下行数据; 或者, 在所述第一下行载波 上检测到所述第二类下行数据, 在所述第二下行载波上检测到所述第二类下 行数据, 且没有在属于其它小区的下行载波上检测到下行数据; 或者, 在所 述第一下行载波上检测到所述第一类下行数据, 在所述第二下行载波上检测 到所述第二类下行数据, 且没有在属于其它小区的下行载波上检测到下行数 据; 或者, 在所述第一下行载波上检测到所述第二类下行数据, 在所述第二 下行载波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波 上检测到下行数据; 方案配置接收模块 22, 用于接收网络设备发送的方案配 置信息, 并根据所述方案配置信息确定是否采用所述第二方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引; 资源确 定模块 13, 具体用于根据检测到的所述下行数据的所述下行载波以及所述下 行数据, 采用第二方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的 格式、 PUCCH 的资源索引。 所述第二方案, 包括: 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为第二格式, 所述第二格式为 PUCCH format lb; 在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH 确定所述第一上行载波上可用于发送所述 HARQ-ACK反馈信息的 PUCCH 资源, 或者, 根据网络设备配置的在所述第一上行载波上的至少一 个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的 一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息确定所述第 一上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 在 所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所述第二 上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 或 者, 根据网络设备配置的在所述第二上行载波上的至少一个可用于反馈所述 第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下行
SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行载波上 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 根据预先配置的 信道选择方案确定所述第一上行载波或所述第二上行载波的所述 PUCCH 的 资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信息、 PUCCH的资源索引、 所述 HARQ-ACK反馈信息比特之间的对应关系。 Further, the detecting module 12 is configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier, and The downlink data is detected on the downlink carrier of the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second type downlink data is detected on the second downlink carrier. And detecting downlink data on a downlink carrier that belongs to another cell; or detecting the first type of downlink data on the first downlink carrier, and detecting the first downlink carrier on the second downlink carrier The second type of downlink data is detected, and the downlink data is not detected on the downlink carrier that belongs to the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second downlink carrier is detected on the second downlink carrier. The downlink data is detected on the downlink carrier of the first type, and the downlink data is not detected on the downlink carrier that belongs to the other cell. The scheme configuration receiving module 22 is configured to receive the scheme that is sent by the network device. And determining, according to the scenario configuration information, whether the format of the PUCCH that sends the HARQ-ACK feedback information, and the resource index of the PUCCH are determined by using the second scenario; the resource determining module 13 is specifically configured to detect The downlink carrier and the downlink data of the downlink data are determined by using a second scheme to determine a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH. The second solution includes: determining that the format of the PUCCH that sends the HARQ-ACK feedback information is a second format, where the second format is a PUCCH format lb; The PDCCH in a type of downlink data determines a PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier, or at least one available on the first uplink carrier according to a network device configuration And determining, by the information about the detection result of the detection result of the second type of downlink data, and the TPC command field in the PDCCH indicating the downlink SPS activation, that the first uplink carrier is available for sending the HARQ - the PUCCH resource of the ACK feedback information, in the second cell, determining, according to the PDCCH in the first type of downlink data, that the second uplink carrier is available for transmitting the HARQ-ACK feedback information The PUCCH resource, or the PUCCH resource that can be used to feed back the detection result of the second type of downlink data, according to the configuration, by the network device, at least one of the second uplink carriers. An indication of the most recent downlink The information of the TPC command field in the SPS-activated PDCCH determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the second uplink carrier; and determines the first uplink according to a pre-configured channel selection scheme a carrier or a resource index of the PUCCH of the second uplink carrier, where the channel selection scheme includes a pre-configured HARQ-ACK feedback information, a resource index of a PUCCH, and a correspondence between the HARQ-ACK feedback information bits relationship.
进一步的, 检测模块 12, 具体用于在所述第一下行载波上检测到所述第 一类下行数据; 资源确定模块 13, 具体用于根据所述第一下行载波以及所述 第一类下行数据, 采用第三方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 所述第三方案, 包括: 根据所述第一 类下行数据中的所述 PDCCH 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; 根据公式 Further, the detecting module 12 is specifically configured to detect the first type of downlink data on the first downlink carrier, and the resource determining module 13 is configured to be used according to the first downlink carrier and the first For the downlink data, the format of the PUCCH that sends the HARQ-ACK feedback information and the resource index of the PUCCH are determined by using the third scheme. The third solution, including: determining, according to the PDCCH in the first type of downlink data, that the format of the PUCCH that sends the HARQ-ACK feedback information is a third format or a second format, where the third format is For PUCCH format la, the second format is PUCCH format lb; according to the formula
"PUCCH "CCE 1、 PUCCH \ \ ) "PUCCH "CCE 1 , PUCCH \ \ )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^CH为网络设备配置的参数; Calculating a resource index of the PUCCH corresponding to the first antenna port, where the CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH releasing the downlink SPS, ^CH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 If the network device uses two antennas, according to the formula
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculating a resource index "^ H of the PUCCH corresponding to the second antenna port.
进一步的, 检测模块 12, 具体用于在所述第一下行载波上检测到所述第 二类下行数据; 资源确定模块 13, 具体用于根据所述第一下行载波以及所述 第二类下行数据, 采用第四方案确定发送 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 所述第四方案, 包括: 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为所述第三格式或所述第二格 式; 根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 Further, the detecting module 12 is specifically configured to detect the second type of downlink data on the first downlink carrier, and the resource determining module 13 is specifically configured to use, according to the first downlink carrier, and the second For the downlink data, the fourth scheme is used to determine the format of the PUCCH that transmits the HARQ-ACK feedback information, and the resource index of the PUCCH. The fourth solution, including: determining, that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format or the second format, and configuring, according to the network device, the first uplink carrier or the Determining, by the information on the second uplink carrier, the PUCCH resource that is used to feed back the detection result of the second type of downlink data, and the information about the TPC command field in the PDCCH indicating the downlink SPS activation Said to the first uplink carrier or the second uplink carrier of the first antenna port
(1 (1
PUCCH 的资源索引 UCCH和对应于第二天线端口的所述第一上行载波或所述
第二上行载波的所述 PUCCH的资源索引 "^ H。 a resource index UCCH of the PUCCH and the first uplink carrier corresponding to the second antenna port or the The resource index of the PUCCH of the second uplink carrier is "H".
进一步的, 检测模块 12, 具体用于在所述第二下行载波上检测到所述第 一类下行数据; 资源确定模块 13, 具体用于根据所述第二下行载波以及所述 第一类下行数据, 采用上述第三方案确定发送 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 Further, the detecting module 12 is specifically configured to detect the first type of downlink data on the second downlink carrier, and the resource determining module 13 is specifically configured to use the second downlink carrier and the first type of downlink Data, using the foregoing third scheme, determining a format of the PUCCH that transmits HARQ-ACK feedback information, and a resource index of a PUCCH.
进一步的, 检测模块 12, 具体用于在所述第二下行载波上检测到所述第 二类下行数据; 资源确定模块 13, 具体用于根据所述第二下行载波以及所述 第二类下行数据, 采用上述第四方案确定发送 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引和 PUCCH的功控信息。 Further, the detecting module 12 is specifically configured to detect the second type of downlink data on the second downlink carrier. The resource determining module 13 is specifically configured to use the second downlink carrier and the second type of downlink. Data, using the fourth scheme described above, determining the format of the PUCCH, the resource index of the PUCCH, and the power control information of the PUCCH that transmit the HARQ-ACK feedback information.
进一步的, 功控模块 23, 用于若确定在所述第一上行载波上发送所述 Further, the power control module 23 is configured to: if it is determined to send the the uplink carrier,
HARQ-ACK反馈信息, 则根据所述第一下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息; 若确定在所述第二上行 载波上发送所述 HARQ-ACK反馈信息, 则根据所述第二下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息。 And the HARQ-ACK feedback information, the power control information of the PUCCH is obtained according to the information of the TPC command field in the PDCCH on the first downlink carrier; if it is determined to be sent on the second uplink carrier, The HARQ-ACK feedback information is used to obtain the power control information of the PUCCH according to the information of the TPC command field in the PDCCH on the second downlink carrier.
本实施例的装置, 可以用于执行图 1~5中任一方法实施例的技术方案, 其实现原理和技术效果类似, 此处不再赘述。 The device of this embodiment may be used to perform the technical solution of the method embodiment of any one of the embodiments of FIG. 1 to 5. The implementation principle and technical effects are similar, and details are not described herein again.
图 10为本发明网络设备实施例一的结构示意图, 如图 10所示, 本实施 例的装置可以包括: 载波配置模块 11、 发送确定模块 12和检测模块 13, 其 中, 载波配置模块 11, 用于为用户设备 UE 配置发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上 行载波, 其中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第 二小区; 发送确定模块 12, 用于通过下行载波向所述 UE发送下行数据, 确 定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述 下行载波包括属于第一小区的第一下行载波和 /或属于第二小区的第二下行 载波和 /或至少一个属于其它小区的下行载波, 所述下行数据为第一类下行 数据或者第二类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS 的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH; 检测模块 12, 用于根据确定的所述 PUCCH资源检测所述 UE在上行载波上发送的所述 HARQ-ACK反馈信息。
本实施例的装置, 可以用于执行图 6所示方法实施例的技术方案, 其实 现原理和技术效果类似, 此处不再赘述。 FIG. 10 is a schematic structural diagram of Embodiment 1 of a network device according to the present invention. As shown in FIG. 10, the apparatus in this embodiment may include: a carrier configuration module 11, a transmission determining module 12, and a detecting module 13, where the carrier configuration module 11 is used. And configuring, by the user equipment UE, a first uplink carrier and a second uplink carrier of the physical uplink control channel PUCCH that sends the hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, where The second uplink carrier corresponds to the second cell, and the sending determining module 12 is configured to send downlink data to the UE by using the downlink carrier, and determine, by the UE, the PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, where the downlink carrier The first downlink carrier that belongs to the first cell and/or the second downlink carrier that belongs to the second cell and/or at least one downlink carrier that belongs to the other cell, where the downlink data is the first type of downlink data or the second type of downlink Data, the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or released downlink The PDCCH of the SPS is statically scheduled, the second type of downlink data is a PDSCH without PDCCH scheduling, and the detecting module 12 is configured to detect, according to the determined PUCCH resource, the HARQ-ACK feedback information sent by the UE on an uplink carrier. . The device in this embodiment may be used to implement the technical solution of the method embodiment shown in FIG. 6. The implementation principle and technical effects are similar, and details are not described herein again.
图 11为本发明网络设备实施例二的结构示意图, 如图 11所示, 本实施 例的装置在图 10 所示装置结构的基础上, 进一步地, 还可以包括: 资源配 置模块 21 以及功控模块 22, 其中, 资源配置模块 21, 用于预先为所述 UE 配置发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为 PUCCH格式 format 3以及所述 UE发送所述 PUCCH format 3的信道资源; 功控模块 22, 用于在所述第一下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC 命令字段的信息中携带所述 UE在所述第一上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH 的功控信息; 在所述第二下行载波上的所述下行数 据中的所述 PDCCH中的所述 TPC命令字段的信息中携带所述 UE在所述第 二上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH的功控信息。 FIG. 11 is a schematic structural diagram of Embodiment 2 of a network device according to the present invention. As shown in FIG. 11, the device in this embodiment may further include: a resource configuration module 21 and a power control, based on the device structure shown in FIG. The module 22, the resource configuration module 21, configured to pre-configure, for the UE, the format of the PUCCH that sends the HARQ-ACK feedback information to be a PUCCH format format 3, and the UE sends a channel resource of the PUCCH format 3 The power control module 22 is configured to carry, in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier, that the UE sends the first uplink carrier The power control information of the PUCCH of the HARQ-ACK feedback information, where the information of the TPC command field in the PDCCH in the downlink data on the second downlink carrier carries the UE in the The power control information of the PUCCH that sends the HARQ-ACK feedback information on the second uplink carrier.
进一步的, 发送确定模块 12, 具体用于通过 个所述下行载波向所述 UE发送所述下行数据, 然后假设所述 UE在 N2个所述下行载波上检测到了 所述下行数据, 确定出 N3种所述 UE可用于发送所述 HARQ-ACK反馈信息 的所述 PUCCH资源, 所述 Ni、 Ν^Ρ Ν3为自然数, 且 Ν2≤Ν N, ≤ ∑ ¾; 检测模块 13, 具体用于根据所述确定出 N3 种所述 UE 可用于 所述 HARQ-ACK反馈信息的所述 PUCCH资源检测所述 UE在上行载波上发送的 所述 HARQ-ACK反馈信息。 Further, the sending determining module 12 is specifically configured to send the downlink data to the UE by using the downlink carrier, and then assume that the UE detects the downlink data on the N2 downlink carriers, and determines that the downlink data is The UE may be configured to send the PUCCH resource of the HARQ-ACK feedback information, where Ni, Ν^Ρ Ν 3 are natural numbers, and Ν 2 ≤ Ν N, ≤ ∑ 3⁄4; the detecting module 13 is specifically configured to Determining, according to the determining, the HARQ-ACK feedback information that is sent by the UE on an uplink carrier, by using the PUCCH resource that the UE is available to the HARQ-ACK feedback information.
进一步的, 发送确定模块 12, 具体用于在所述至少一个属于其它小区的 下行载波上向所述 UE发送下行数据, 同时在所述至少一个属于其它小区的 下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息中携带所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH format 3的资源索引。 Further, the sending determining module 12 is specifically configured to send downlink data to the UE on the downlink carrier that belongs to the other cell, and simultaneously perform the downlink data on the downlink carrier of the at least one belonging to another cell. The information of the TPC command field in the PDCCH carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
进一步的, 发送确定模块 12, 具体用于假设所述 UE在所述至少一个属 于其它小区的下行载波上检测到所述下行数据, 根据在所述至少一个属于其 它小区的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息确 定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH format 3的资源索 引。 Further, the sending determining module 12 is specifically configured to: if the UE detects the downlink data on the at least one downlink carrier that belongs to another cell, according to the at least one downlink carrier that belongs to another cell. The information of the TPC command field in the PDCCH of the downlink data determines a resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
进一步的, 发送确定模块 12, 具体用于假设所述 UE同时在所述第一下 行载波和所述第二下行载波上检测到所述下行数据且没有在属于其它小区的
下行载波上检测到所述下行数据, 为所述 UE配置信道选择方案, 根据所述 信道选择方案确定所述 UE在所述第一上行载波或所述第二上行载波上发送 所述 HARQ-ACK反馈信息的所述 PUCCH format lb的资源索引, 所述信道 选择方案包括预先配置的所述 HARQ-ACK 反馈信息、 上行载波的资源索 弓 I、 所述 HARQ-ACK反馈信息比特之间的对应关系。 发送确定模块 11, 还 用于在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所 述 UE在所述第一上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH 资源, 确定所述 UE 在第一小区内用于发送 HARQ-ACK反馈信息的 PUCCH资源; 在所述第二小区内, 根据所述第一类 下行数据中的所述 PDCCH确定所述 UE用于发送所述 HARQ-ACK反馈信息 的 PUCCH资源, 或者, 根据为所述 UE在所述第二上行载波上配置的至少一 个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和在最近 的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的 所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 确定所述 UE 在第二小区内用于发送 HARQ-ACK反馈信息的 PUCCH资源。 Further, the sending determining module 12 is specifically configured to: if the UE detects the downlink data on the first downlink carrier and the second downlink carrier at the same time, and does not belong to other cells. Detecting the downlink data on the downlink carrier, configuring a channel selection scheme for the UE, and determining, according to the channel selection scheme, that the UE sends the HARQ-ACK on the first uplink carrier or the second uplink carrier. a resource index of the PUCCH format lb of the feedback information, where the channel selection scheme includes a pre-configured HARQ-ACK feedback information, a resource of the uplink carrier, and a correspondence between the HARQ-ACK feedback information bits. . The sending determining module 11 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource used by the UE to send the HARQ-ACK feedback information, or And the at least one PUCCH resource that is configured by the UE on the first uplink carrier to be used for feeding back a detection result of the second type of downlink data, and the TPC in a PDCCH that is the latest one indicating the downlink SPS activation. The UE configured in the information of the command field sends the PUCCH resource of the HARQ-ACK feedback information, and determines a PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or configuring, according to the UE, the second uplink carrier At least one of the PUCCH resources that can be used to feed back the detection result of the second type of downlink data and the UE transmission station configured in the information of the TPC command field in the latest one of the PDCCHs indicating the downlink SPS activation Describe the PUCCH resource of the HARQ-ACK feedback information, and determine a PUCCH resource used by the UE to send HARQ-ACK feedback information in the second cell.
进一步的, 发送确定模块 12, 具体用于假设所述 UE在所述第一下行载 波上检测到所述第一类下行数据, 根据所述下行数据的所述 PDCCH使用的 资源确定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Further, the sending determining module 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine the UE according to the resource used by the PDCCH of the downlink data. Transmitting the PUCCH resource of the HARQ-ACK feedback information;
根据公式 (1 ) According to the formula (1)
CCE 1 \ )CCE 1 \ )
,ρ(Λ , ρ ( Λ
计算获取对应于第一天线端口的所述 PUCCH的资源索引 其中, " 为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W 为网络设备配置的参数; Calculating a resource index of the PUCCH corresponding to the first antenna port, where "is the first control of the PDCCH scheduled for the PDSCH on the first downlink carrier or the second downlink carrier The sequence number of the CCE of the channel element or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, where W is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
= n nCCE + 1 + Λ^(1) ,2 ) = n n CCE + 1 + Λ^ (1) , 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^
进一步的, 发送确定模块 12, 具体用于假设所述 UE在所述第一下行载 波上检测到所述第二类下行数据, 确定所述 UE在所述第一上行载波或所述 第二上行载波上用于反馈所述第二类下行数据的检测结果的所述 PUCCH资 源; Calculating a resource index of the PUCCH corresponding to the second antenna port Further, the sending determining module 12 is specifically configured to: after the UE detects the second type of downlink data on the first downlink carrier, determining that the UE is in the first uplink carrier or the second The PUCCH resource on the uplink carrier for feeding back the detection result of the second type of downlink data;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 1¾和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ^ H。 Determining, according to a recent information indicating the TPC command field in the downlink SPS activated PDCCH, that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the a resource index 126 of the PUCCH of the second uplink carrier and a resource index " ^ H of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
进一步的, 发送确定模块 12, 具体用于假设所述 UE在所述第二下行载 波上检测到所述第一类下行数据, 根据所述下行数据的所述 PDCCH使用的 资源确定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 根据公式 (1 ) Further, the sending determining module 12 is specifically configured to: determine that the UE detects the first type of downlink data on the second downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information; according to formula (1)
〃 τ 1 ) 〃 τ 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, Calculating, by acquiring a resource index "^ of the PUCCH corresponding to the first antenna port, where
"CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W 为网络设备配置的参数; " CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS The serial number of the CCE, W is the parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
〃 τ丄 τ /V v P (1 U ) CCH ( / 2、 ) 〃 τ丄τ /V v P (1 U ) CCH ( / 2)
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ 。 Calculating a resource index "^" of the PUCCH corresponding to the second antenna port.
进一步的, 发送确定模块 12, 具体用于假设所述 UE在所述第二下行载 波上检测到所述第二类下行数据, 确定所述 UE在所述第一上行载波或所述 第二上行载波上用于反馈所述第二类下行数据的检测结果的所述 PUCCH资 源; Further, the sending determining module 12 is specifically configured to: if the UE detects the second type of downlink data on the second downlink carrier, determining that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^^。
本实施例的装置, 可以用于执行图 6 或图 7 所示方法实施例的技术方 案, 其实现原理和技术效果类似, 此处不再赘述。 Determining, according to a recent information indicating the TPC command field in the downlink SPS activated PDCCH, that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the a resource index of the PUCCH of the second uplink carrier and a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port. The device in this embodiment may be used to implement the technical solution of the method embodiment shown in FIG. 6 or FIG. 7. The implementation principle and technical effects are similar, and details are not described herein again.
图 12为本发明 UE实施例三的结构示意图, 如图 12所示, 本实施例的 设备可以包括: 处理器 11, 用于确定可用于发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上 行载波, 其中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第 二小区; 在下行载波上检测下行数据获得检测结果, 所述下行载波包括属于 第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个 属于其它小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行 数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行 共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类 下行数据为没有 PDCCH调度的 PDSCH; 根据所述检测结果, 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 FIG. 12 is a schematic structural diagram of Embodiment 3 of a UE according to the present invention. As shown in FIG. 12, the device in this embodiment may include: a processor 11 configured to determine a physical uplink that can be used to send a hybrid automatic repeat request HARQ-ACK feedback information. The first uplink carrier and the second uplink carrier of the control channel PUCCH, where the first uplink carrier corresponds to the first cell, the second uplink carrier corresponds to the second cell, and the downlink data is detected on the downlink carrier, and the detection result is obtained. The downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to the other cell, where the downlink data is the first type of downlink data or the first The downlink data of the second type is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH releasing the downlink semi-persistent scheduling SPS, and the second type of downlink data is the PDSCH without PDCCH scheduling. Determining, according to the detection result, a format, PUCC of the PUCCH that sends the HARQ-ACK feedback information H's resource index.
进一步的, 处理器 11 具体用于如果在所述至少一个属于其它小区的下 行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所 述 PUCCH的格式为第一格式, 所述第一格式为 PUCCH格式 format 3 ; 如果 只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述第二下行 载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或者 PUCCH format lb。 Further, the processor 11 is specifically configured to: if the downlink data is detected on the at least one downlink carrier that belongs to another cell, determine that the format of the PUCCH that sends the HARQ-ACK feedback information is a first format, The first format is a PUCCH format format 3; if the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, The format of the PUCCH that sends the HARQ-ACK feedback information is determined to be a second format, where the second format is PUCCH format la or PUCCH format lb.
本实施例的装置, 可以用于执行图 1所示方法实施例的技术方案, 其实 现原理和技术效果类似, 此处不再赘述。 The device in this embodiment can be used to implement the technical solution of the method embodiment shown in FIG. 1. The principle and the technical effect are similar, and details are not described herein again.
图 13为本发明 UE实施例四的结构示意图, 如图 13所示, 本实施例的 装置在图 12所示装置结构的基础上, 进一步地, 还可以包括: 接收器 21, 用于接收资源配置信息; 处理器 11, 具体用于根据所述资源配置信息确定通 过 PUCCH format 3发送所述 HARQ-ACK反馈信息。 FIG. 13 is a schematic structural diagram of Embodiment 4 of a UE according to the present invention. As shown in FIG. 13, the apparatus in this embodiment is further configured to: Receiver 21, for receiving resources, on the basis of the apparatus structure shown in FIG. The processor 11 is configured to determine, according to the resource configuration information, that the HARQ-ACK feedback information is sent by using the PUCCH format 3.
进一步的, 处理器 11, 具体用于在所述至少一个属于其它小区的下行载 波上检测到下行数据; 根据所述网络设备预先配置的所述 PUCCH format 3 资源确定所述第一小区和所述第二小区中可用于发送所述 HARQ-ACK反馈 信息的所有所述 PUCCH format 3资源; 根据在所述至少一个属于其它小区
的下行载波上检测到的所述 PDSCH的所述 PDCCH中的传输功率控制 TPC 命令字段的信息获取发送所述 HARQ-ACK反馈信息的所述 PUCCH的资源索 引。 Further, the processor 11 is specifically configured to: detect downlink data on the at least one downlink carrier that belongs to another cell; determine the first cell and the first cell according to the PUCCH format 3 resource configured in advance by the network device. All of the PUCCH format 3 resources available for transmitting the HARQ-ACK feedback information in the second cell; according to the at least one belonging to another cell The information of the transmission power control TPC command field in the PDCCH of the PDSCH detected on the downlink carrier acquires the resource index of the PUCCH that transmits the HARQ-ACK feedback information.
进一步的, 处理器 11, 具体用于在所述第一下行载波上检测到所述第一 类下行数据, 在所述第二下行载波上检测到所述第一类下行数据, 且没有在 属于其它小区的下行载波上检测到下行数据; 或者, 在所述第一下行载波上 检测到所述第二类下行数据, 在所述第二下行载波上检测到所述第二类下行 数据, 且没有在属于其它小区的下行载波上检测到下行数据; 或者, 在所述 第一下行载波上检测到所述第一类下行数据, 在所述第二下行载波上检测到 所述第二类下行数据, 且没有在属于其它小区的下行载波上检测到下行数 据; 或者, 在所述第一下行载波上检测到所述第二类下行数据, 在所述第二 下行载波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波 上检测到下行数据; 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格 式为第二格式, 所述第二格式为 PUCCH format lb; 根据预先配置的信道选 择方案确定所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索 弓 I, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信息、 PUCCH 的资源索引、 所述 HARQ-ACK反馈信息比特之间的对应关系。 处理器 11, 还用于在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定 所述第一上行载波上可用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据网络设备配置的在所述第一上行载波上的至少一个可用于反馈所 述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下 行 SPS激活的 PDCCH中的 TPC命令字段的信息确定所述第一上行载波上可 用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Further, the processor 11 is configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier, and The downlink data is detected on the downlink carrier of the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second type downlink data is detected on the second downlink carrier. And detecting downlink data on a downlink carrier that belongs to another cell; or detecting the first type of downlink data on the first downlink carrier, and detecting the first downlink carrier on the second downlink carrier The second type of downlink data is detected, and the downlink data is not detected on the downlink carrier that belongs to the other cell; or the second type of downlink data is detected on the first downlink carrier, and the second downlink carrier is detected on the second downlink carrier. Going to the first type of downlink data, and detecting downlink data on downlink carriers belonging to other cells; determining a format of the PUCCH that sends the HARQ-ACK feedback information a second format, the second format is a PUCCH format lb; determining, according to a pre-configured channel selection scheme, a resource of the PUCCH of the first uplink carrier or the second uplink carrier, the channel selection scheme The pre-configured HARQ-ACK feedback information, the resource index of the PUCCH, and the correspondence between the HARQ-ACK feedback information bits are included. The processor 11 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource that is used to send the HARQ-ACK feedback information on the first uplink carrier, where Or the at least one of the PUCCH resources that are used to feed back the detection result of the second type of downlink data and the latest one of the PDCCHs that indicate the downlink SPS activation are configured according to the network device. The information of the TPC command field determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the first uplink carrier;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第二上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资 源, 或者, 根据网络设备配置的在所述第二上行载波上的至少一个可用于反 馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所 述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行 载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源。 Determining, in the second cell, the PUCCH resource that is used to send the HARQ-ACK feedback information on the second uplink carrier according to the PDCCH in the first type of downlink data, or according to the network device Configuring at least one of the PUCCH resources on the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the TPC command field in the PDCCH indicating the downlink SPS activation The information determines the PUCCH resource that is available to send the HARQ-ACK feedback information on the second uplink carrier.
进一步的, 接收器 21, 还用于接收网络设备发送的方案配置信息; 处理
器 11, 具体用于根据所述方案配置信息确定是否采用所述第二方案确定发送 所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 Further, the receiver 21 is further configured to receive scheme configuration information sent by the network device; The device 11 is specifically configured to determine, according to the scenario configuration information, whether to use the second scheme to determine a format of the PUCCH that sends the HARQ-ACK feedback information, and a resource index of a PUCCH.
进一步的, 处理器 11, 具体用于在所述第一下行载波上检测到所述第一 类下行数据; 根据所述第一类下行数据中的所述 PDCCH 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第三格式或第二格式, 所述第 三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; Further, the processor 11 is specifically configured to detect the first type of downlink data on the first downlink carrier, and determine to send the HARQ-ACK feedback according to the PDCCH in the first type of downlink data. The format of the PUCCH of the information is a third format or a second format, the third format is a PUCCH format la, and the second format is a PUCCH format lb;
根据公式 (1 ) According to the formula (1)
〃 i- 1 ) 〃 i- 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, " 为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W 为网络设备配置的参数; Calculating, by the resource index of the PUCCH corresponding to the first antenna port, where the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier is a sequence number of a control channel element CCE or a sequence number of the first CCE of the PDCCH releasing the downlink SPS, where W is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
2 ) 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ 。 Calculating a resource index "^" of the PUCCH corresponding to the second antenna port.
进一步的, 处理器 11, 具体用于在所述第一下行载波上检测到所述第二 类下行数据; 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所 述第三格式或所述第二格式; Further, the processor 11 is specifically configured to detect the second type of downlink data on the first downlink carrier, and determine that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format. Or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 —个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ 。 And at least one of the PUCCH resources and the latest one of the first uplink carrier or the second uplink carrier that are configured to feed back the detection result of the second type of downlink data according to the network device The information of the TPC command field in the SPS-activated PDCCH determines a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port, and corresponds to the second a resource index of the PUCCH of the first uplink carrier or the second uplink carrier of the antenna port.
进一步的, 处理器 11, 具体用于在所述第二下行载波上检测到所述第一 类下行数据; 根据所述第一类下行数据中的所述 PDCCH 确定发送所述 Further, the processor 11 is specifically configured to detect the first type of downlink data on the second downlink carrier, and determine to send the according to the PDCCH in the first type of downlink data.
HARQ-ACK反馈信息的所述 PUCCH的格式为第三格式或第二格式, 所述第 三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; The format of the PUCCH of the HARQ-ACK feedback information is a third format or a second format, the third format is PUCCH format la, and the second format is PUCCH format lb;
根据公式 (1 ) According to the formula (1)
n ^P ) - _, / .、 n ^P ) - _, / .,
nCCE 1 y 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^t^H为网络设备配置的参数; nCCE 1 y 1 ) Calculating a resource index of the PUCCH corresponding to the first antenna port, where CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, and ^t^H is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH = n nCCE + T 1I +T N PUv>CCH ( 2、 ) "PUCCH = n n CCE + T 1I + TN PU v> CCH ( 2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ 。 Calculating a resource index "^" of the PUCCH corresponding to the second antenna port.
进一步的, 处理器 11, 具体用于在所述第二下行载波上检测到所述第二 类下行数据; 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所 述第三格式或所述第二格式; Further, the processor 11 is specifically configured to detect the second type of downlink data on the second downlink carrier, and determine that the format of the PUCCH that sends the HARQ-ACK feedback information is the third format or The second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ 。 And at least one of the PUCCH resources and the latest one of the first uplink carrier or the second uplink carrier that are configured to be used to feed back the detection result of the second type of downlink data according to the network device, indicating the downlink SPS The information of the TPC command field in the activated PDCCH determines a resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port, and corresponds to the second antenna The resource index "^ of the PUCCH of the first uplink carrier or the second uplink carrier of the port.
进一步的, 处理器 11, 还用于若确定在所述第一上行载波上发送所述 Further, the processor 11 is further configured to: if it is determined to send the the uplink carrier,
HARQ-ACK反馈信息, 则根据所述第一下行载波上的所述 PDCCH中的所述The HARQ-ACK feedback information is, according to the foregoing in the PDCCH on the first downlink carrier.
TPC命令字段的信息获取所述 PUCCH的功控信息; 若确定在所述第二上行 载波上发送所述 HARQ-ACK反馈信息, 则根据所述第二下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息。 The information of the TPC command field acquires the power control information of the PUCCH; if it is determined that the HARQ-ACK feedback information is sent on the second uplink carrier, according to the PDCCH in the PDCCH on the second downlink carrier The information of the TPC command field acquires the power control information of the PUCCH.
本实施例的装置, 可以用于执行图 1〜图 5 中任一方法实施例的技术方 案, 其实现原理和技术效果类似, 此处不再赘述。 The device of this embodiment may be used to implement the technical solution of any one of the method embodiments of FIG. 1 to FIG. 5, and the implementation principle and technical effects thereof are similar, and details are not described herein again.
图 14为本发明网络设备实施例三的结构示意图, 如图 14所示, 本实施 例的设备可以包括: 发送器 11和处理器 12, 其中, 处理器 12, 用于为用户 设备 UE配置发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控制信 道 PUCCH 的第一上行载波和第二上行载波, 其中, 所述第一上行载波对应 第一小区, 所述第二上行载波对应第二小区; 发送器 11, 用于通过下行载波 向所述 UE发送下行数据, 所述下行载波包括属于第一小区的第一下行载波 和 /或属于第二小区的第二下行载波和 /或至少一个属于其它小区的下行载
波, 所述下行数据为第一类下行数据或者第二类下行数据, 所述第一类下行 数据为由物理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH或 者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH 调度的 PDSCH ; 处理器 12, 还用于确定所述 UE 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 根据确定的所述 PUCCH资源检 测所述 UE在上行载波上发送的所述 HARQ-ACK反馈信息。 FIG. 14 is a schematic structural diagram of Embodiment 3 of a network device according to the present invention. As shown in FIG. 14, the device in this embodiment may include: a transmitter 11 and a processor 12, where the processor 12 is configured to send and send for the user equipment UE. The first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH of the hybrid automatic retransmission request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, and the second uplink carrier corresponds to the second cell The transmitter 11 is configured to send downlink data to the UE by using a downlink carrier, where the downlink carrier includes a first downlink carrier that belongs to the first cell and/or a second downlink carrier that belongs to the second cell, and/or at least one Downstream of other communities The downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is a physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or a PDCCH that releases the downlink semi-persistent scheduling SPS. The second type of downlink data is a PDSCH without PDCCH scheduling; the processor 12 is further configured to determine the PUCCH resource that the UE can use to send the HARQ-ACK feedback information; and detect the PUCCH resource according to the determined The HARQ-ACK feedback information sent by the UE on an uplink carrier.
进一步的, 处理器 12, 还用于预先为所述 UE配置发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式为 PUCCH格式 format 3以及所述 UE发送所 述 PUCCH format 3的信道资源。 Further, the processor 12 is further configured to pre-configure, for the UE, the format of the PUCCH that sends the HARQ-ACK feedback information to a PUCCH format format 3, and the UE sends the channel resource of the PUCCH format 3.
进一步的, 发送器 11, 具体用于通过 个所述下行载波向所述 UE发送 所述下行数据; 处理器 12, 具体用于假设所述 UE在N2个所述下行载波上检 测到了所述下行数据, 确定出 N3种所述 UE可用于发送所述 HARQ-ACK反 馈信息的所述 PUCCH 资源, 所述 N2和 N3为自然数, 且 N2≤ N N, ≤ ∑ 根据所述确定出 N3种所述 UE可用于发送所述 HARQ-ACK反 馈信意的所述 PUCCH 资源检测所述 UE 在上行载波上发送的所述 HARQ-ACK反馈信息。 Further, the transmitter 11, configured to send the downlink data to the UE through downlink of said carriers; a processor 12, specifically for the UE is assumed to detect the N 2 in the two downlink carriers the downlink data, it is determined that the PUCCH resources the UE Species N 3 may be configured to send the HARQ-ACK feedback information, the N 2 and N 3 is a natural number, and N 2 ≤ NN, ≤ Σ illustrating the determination the UE 3 N species can be configured to send the HARQ-ACK feedback channels intended to detect the PUCCH resource of the HARQ-ACK feedback information transmitted on the uplink carrier the UE.
进一步的, 发送器 11, 具体用于在所述至少一个属于其它小区的下行载 波上向所述 UE发送下行数据, 同时在所述至少一个属于其它小区的下行载 波上的所述下行数据的 PDCCH中的 TPC命令字段的信息中携带所述 UE发 送所述 HARQ-ACK反馈信息的所述 PUCCH format 3的资源索引。 Further, the transmitter 11 is specifically configured to send downlink data to the UE on the downlink carrier that belongs to the other cell, and at the same time, the PDCCH of the downlink data on the at least one downlink carrier belonging to another cell The information of the TPC command field carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
进一步的, 处理器 12, 具体用于假设所述 UE在所述至少一个属于其它 小区的下行载波上检测到所述下行数据, 根据在所述至少一个属于其它小区 的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息确定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH format 3的资源索引。 Further, the processor 12 is specifically configured to: if the UE detects the downlink data on the at least one downlink carrier that belongs to another cell, according to the downlink on the downlink carrier that belongs to the at least one other cell The information of the TPC command field in the PDCCH of the data determines the resource index of the PUCCH format 3 in which the UE transmits the HARQ-ACK feedback information.
进一步的, 处理器 12, 具体用于假设所述 UE同时在所述第一下行载波 和所述第二下行载波上检测到所述下行数据且没有在属于其它小区的下行载 波上检测到所述下行数据, 为所述 UE配置信道选择方案, 根据所述信道选 择方案确定所述 UE 在所述第一上行载波或所述第二上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH format lb的资源索引, 所述信道选择方 案包括预先配置的所述 HARQ-ACK反馈信息、 上行载波的资源索引、 所述
HARQ-ACK反馈信息比特之间的对应关系。 处理器 12, 还用于在所述第一 小区内, 根据所述第一类下行数据中的所述 PDCCH确定所述 UE用于发送所 述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所述 UE在所述第一 上行载波上配置的至少一个可用于反馈所述第二类下行数据的检测结果的所 述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC 命令字段的信息中配置的所述 UE 发送所述 HARQ-ACK 反馈信息的所述 PUCCH资源, 确定所述 UE在第一小区内用于发送 HARQ-ACK反馈信息的 PUCCH 资源; 在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所述 UE在所述第二上行载波上配置的至少一个可用于反馈所 述第二类下行数据的检测结果的所述 PUCCH资源和在最近的一个指示所述 下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所 述 HARQ-ACK反馈信息的所述 PUCCH资源, 确定所述 UE在第二小区内用 于发送 HARQ-ACK反馈信息的 PUCCH资源。 Further, the processor 12 is specifically configured to: if the UE detects the downlink data on the first downlink carrier and the second downlink carrier at the same time, and does not detect the downlink carrier that belongs to another cell. Determining the downlink data, configuring a channel selection scheme for the UE, and determining, according to the channel selection scheme, the PUCCH that the UE sends the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier. a resource index of the format lb, the channel selection scheme includes the pre-configured HARQ-ACK feedback information, a resource index of an uplink carrier, and the Correspondence between HARQ-ACK feedback information bits. The processor 12 is further configured to: in the first cell, determine, according to the PDCCH in the first type of downlink data, a PUCCH resource that is used by the UE to send the HARQ-ACK feedback information, or At least one PUCCH resource that is configured by the UE on the first uplink carrier to feed back a detection result of the second type of downlink data and a TPC command in a PDCCH that indicates the downlink SPS activation The UE configured in the information of the field sends the PUCCH resource of the HARQ-ACK feedback information, and determines a PUCCH resource used by the UE to send HARQ-ACK feedback information in the first cell; Determining, according to the PDCCH in the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information, or according to the UE configured on the second uplink carrier. And transmitting, by the UE, the PUCCH resource that is used to feed back a detection result of the second type of downlink data, and the UE configured in the latest one of the TPC command fields in the PDCCH indicating the downlink SPS activation to send the HARQ The PUCCH resource of the ACK feedback information is used to determine a PUCCH resource used by the UE to transmit HARQ-ACK feedback information in the second cell.
进一步的, 处理器 12, 具体用于假设所述 UE在所述第一下行载波上检 测到所述第一类下行数据, 根据所述下行数据的所述 PDCCH使用的资源确 定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Further, the processor 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information;
根据公式 (1 ) According to the formula (1)
〃 τ 1 ) 〃 τ 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, Calculating, by acquiring a resource index "^ of the PUCCH corresponding to the first antenna port, where
"CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, 为网络设备配置的参数; " CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS The serial number of the CCE, which is the parameter configured for the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
/V(1) / 、 /V (1) / ,
〃 τ丄 τ 2 ) 〃 τ丄 τ 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 。 Calculating a resource index of the PUCCH corresponding to the second antenna port.
进一步的, 处理器 12, 具体用于假设所述 UE在所述第一下行载波上检 测到所述第二类下行数据, 确定所述 UE在所述第一上行载波或所述第二上 行载波上用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源; 根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字
段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 "^ H和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引"^ H。 Further, the processor 12 is specifically configured to: if the UE detects the second type of downlink data on the first downlink carrier, determine that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data; according to the latest one, indicating the TPC command word in the PDCCH of the downlink SPS activation The information of the segment determines that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier of the first antenna port or the resource index of the PUCCH of the second uplink carrier, and corresponds to the second a resource index "^ H " of the PUCCH of the first uplink carrier or the second uplink carrier of the antenna port.
进一步的, 处理器 12, 具体用于假设所述 UE在所述第一下行载波上检 测到所述第一类下行数据, 根据所述下行数据的所述 PDCCH使用的资源确 定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; Further, the processor 12 is specifically configured to: determine that the UE detects the first type of downlink data on the first downlink carrier, and determine, according to the resource used by the PDCCH of the downlink data, that the UE sends The PUCCH resource of the HARQ-ACK feedback information;
根据公式 (1 ) According to the formula (1)
"PUCCH 〃CCE τ PUCCH ( 1 ) "PUCCH 〃CCE τ PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, Calculating a resource index "^ H of the PUCCH corresponding to the first antenna port, where
"CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W^CH为网络设备配置的参数; " CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH releasing the downlink SPS The serial number of the CCE, W^CH is the parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH―〃CCE τ丄 τ /V P ( U 1) CCH ( / 2、 ) "PUCCH-〃CCE τ丄τ /V P ( U 1) CCH ( / 2)
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculating a resource index "^ H of the PUCCH corresponding to the second antenna port.
进一步的, 处理器 12, 具体用于假设所述 UE在所述第一下行载波上检 测到所述第二类下行数据, 确定所述 UE在所述第一上行载波或所述第二上 行载波上用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源; 根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ^ H。 Further, the processor 12 is specifically configured to: if the UE detects the second type of downlink data on the first downlink carrier, determine that the UE is in the first uplink carrier or the second uplink The PUCCH resource on the carrier for feeding back the detection result of the second type of downlink data; determining, according to the latest information indicating the TPC command field in the downlink SPS activated PDCCH, that the UE sends the HARQ The ACK feedback information corresponds to a resource index of the PUCCH of the first uplink carrier or the second uplink carrier of the first antenna port, and the first uplink carrier or the second corresponding to the second antenna port The resource index " ^ H of the PUCCH of the uplink carrier.
进一步的, 处理器 12, 还用于在所述第一下行载波上的所述下行数据中 的所述 PDCCH中的所述 TPC命令字段的信息中携带所述 UE在所述第一上 行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH的功控信息; 在所述 第二下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC命令字段的 信息中携带所述 UE在所述第二上行载波上发送所述 HARQ-ACK反馈信息的 所述 PUCCH的功控信息。
本实施例的装置, 可以用于执行图 6 或图 7 所示方法实施例的技术方 案, 其实现原理和技术效果类似, 此处不再赘述。 Further, the processor 12 is further configured to carry the UE in the first uplink carrier in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier. The power control information of the PUCCH on which the HARQ-ACK feedback information is sent; the information of the TPC command field in the PDCCH in the downlink data on the second downlink carrier that carries the UE Transmitting the power control information of the PUCCH of the HARQ-ACK feedback information on the second uplink carrier. The device in this embodiment may be used to implement the technical solution of the method embodiment shown in FIG. 6 or FIG. 7. The implementation principle and technical effects are similar, and details are not described herein again.
图 15为本发明上行控制信道传输系统实施例的结构示意图, 如图 15所 示, 本实施例的系统包括: UE11和网络设备 12, 其中, UE11可以采用图 8 或图 9所示装置实施例的结构, 其对应地, 可以执行图 1〜图 5中任一方法实 施例的技术方案, 其实现原理和技术效果类似, 此处不再赘述; 网络设备 12 可以采用图 10或图 11所示装置实施例的结构, 其对应地, 可以执行图 6或 图 7所示方法实施例的技术方案, 其实现原理和技术效果类似, 此处不再赘 述。 FIG. 15 is a schematic structural diagram of an embodiment of an uplink control channel transmission system according to the present invention. As shown in FIG. 15, the system in this embodiment includes: a UE 11 and a network device 12, where the UE 11 can adopt the device embodiment shown in FIG. 8 or FIG. Correspondingly, the technical solution of any of the method embodiments of FIG. 1 to FIG. 5 may be performed, and the implementation principle and the technical effect are similar, and details are not described herein; the network device 12 may adopt the method shown in FIG. 10 or FIG. Correspondingly, the technical solution of the method embodiment shown in FIG. 6 or FIG. 7 can be performed, and the implementation principle and the technical effect are similar, and details are not described herein again.
进一步的, 图 15 所示的结构也可以作为是上行控制信道传输实体系统 的结构示意图, 包括: UE11和网络设备 12, 其中, UE11可以采用图 12或 图 13所示装置实施例的结构, 其对应地, 可以执行图 1〜图 5中任一方法实 施例的技术方案, 其实现原理和技术效果类似, 此处不再赘述; 网络设备 12 可以采用图 14所示装置实施例的结构, 其对应地, 可以执行图 6或图 7所示 方法实施例的技术方案, 其实现原理和技术效果类似, 此处不再赘述。 Further, the structure shown in FIG. 15 may also be a schematic structural diagram of an uplink control channel transmission entity system, including: a UE 11 and a network device 12, where the UE 11 may adopt the structure of the apparatus embodiment shown in FIG. 12 or FIG. Correspondingly, the technical solution of the method embodiment of any one of FIG. 1 to FIG. 5 can be performed, and the implementation principle and technical effects are similar, and details are not described herein. The network device 12 can adopt the structure of the device embodiment shown in FIG. Correspondingly, the technical solution of the method embodiment shown in FIG. 6 or FIG. 7 can be performed, and the implementation principle and the technical effect are similar, and details are not described herein again.
在本发明所提供的几个实施例中, 应该理解到, 所揭露的装置和方法, 可以通过其它的方式实现。 例如, 以上所描述的装置实施例仅仅是示意性 的, 例如, 所述单元的划分, 仅仅为一种逻辑功能划分, 实际实现时可以有 另外的划分方式, 例如多个单元或组件可以结合或者可以集成到另一个系 统, 或一些特征可以忽略, 或不执行。 另一点, 所显示或讨论的相互之间的 耦合或直接耦合或通信连接可以是通过一些接口, 装置或单元的间接耦合或 通信连接, 可以是电性, 机械或其它的形式。 In the several embodiments provided by the present invention, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the device embodiments described above are merely illustrative. For example, the division of the unit is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed. In addition, the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise.
所述该作为分离部件说明的单元可以是或者也可以不是物理上分开的, 作为单元显示的部件可以是或者也可以不是物理单元, 即可以位于一个地 方, 或者也可以分布到多个网络单元上。 可以根据实际的需要选择其中的部 分或者全部单元来实现本实施例方案的目的。 The units described as separate components may or may not be physically separated, and the components displayed as the unit may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. . Some or all of the units may be selected according to actual needs to achieve the objectives of the solution of the embodiment.
另外, 在本发明各个实施例中的各功能单元可以集成在一个处理单元 中, 也可以是各个单元单独物理存在, 也可以两个或两个以上单元集成在一 个单元中。 上述集成的单元既可以采用硬件的形式实现, 也可以采用硬件加 软件功能单元的形式实现。
上述以软件功能单元的形式实现的集成的单元, 可以存储在一个计算机 可读取存储介质中。 上述软件功能单元存储在一个存储介质中, 包括若干指 令用以使得一台计算机设备(可以是个人计算机, 服务器, 或者网络设备等) 或处理器 (processor) 执行本发明各个实施例所述方法的部分步骤。 而前述 的存储介质包括: U 盘、 移动硬盘、 只读存储器 (Read-Only Memory , ROM) 、 随机存取存储器 (Random Access Memory, RAM) 、 磁碟或者光 盘等各种可以存储程序代码的介质。 In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of hardware plus software functional units. The above-described integrated unit implemented in the form of a software functional unit can be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor to perform the method of various embodiments of the present invention. Part of the steps. The foregoing storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, which can store program codes. .
本领域技术人员可以清楚地了解到, 为描述的方便和简洁, 仅以上述各 功能模块的划分进行举例说明, 实际应用中, 可以根据需要而将上述功能分 配由不同的功能模块完成, 即将装置的内部结构划分成不同的功能模块, 以 完成以上描述的全部或者部分功能。 上述描述的装置的具体工作过程, 可以 参考前述方法实施例中的对应过程, 在此不再赘述。 A person skilled in the art can clearly understand that for the convenience and brevity of the description, only the division of each functional module described above is exemplified. In practical applications, the above function assignment can be completed by different functional modules as needed, that is, the device is installed. The internal structure is divided into different functional modules to perform all or part of the functions described above. For the specific working process of the device described above, refer to the corresponding process in the foregoing method embodiment, and details are not described herein again.
最后应说明的是: 以上各实施例仅用以说明本发明的技术方案, 而非对 其限制; 尽管参照前述各实施例对本发明进行了详细的说明, 本领域的普通 技术人员应当理解: 其依然可以对前述各实施例所记载的技术方案进行修 改, 或者对其中部分或者全部技术特征进行等同替换; 而这些修改或者替 换, 并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。
It should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art The technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; and the modifications or substitutions do not deviate from the technical solutions of the embodiments of the present invention. range.
Claims
1、 一种上行控制信道传输方法, 其特征在于, 包括: 1. An uplink control channel transmission method, characterized by including:
确定可用于发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控 制信道 PUCCH 的第一上行载波和第二上行载波, 其中, 所述第一上行载波 对应第一小区, 所述第二上行载波对应第二小区; Determine the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, and the second uplink carrier Corresponds to the second cell;
在下行载波上检测下行数据获得检测结果, 所述下行载波包括属于第一 小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个属于 其它小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行数 据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行共 享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下 行数据为没有 PDCCH调度的 PDSCH; Detecting downlink data on a downlink carrier to obtain a detection result, the downlink carrier including a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to another cell, The downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH that releases the downlink semi-static scheduling SPS, so The second type of downlink data is PDSCH without PDCCH scheduling;
根据所述检测结果, 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式、 PUCCH的资源索引; According to the detection result, determine the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 包括: Determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result include:
如果在所述至少一个属于其它小区的下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第一格式, 所 述第一格式为 PUCCH格式 format 3 ; If the downlink data is detected on the at least one downlink carrier belonging to another cell, it is determined that the format of the PUCCH for sending the HARQ-ACK feedback information is a first format, and the first format is a PUCCH format format 3;
如果只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述 第二下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信 息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或 者 PUCCH format lb。 If the downlink data is only detected on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determine the method for sending the HARQ-ACK feedback information. The format of the PUCCH is a second format, and the second format is PUCCH format la or PUCCH format lb.
2、 根据权利要求 1 所述的方法, 其特征在于, 所述确定可用于发送混 合自动重传请求 HARQ-ACK反馈信息的物理上行控制信道 PUCCH的第一上 行载波和第二上行载波之前, 还包括: 2. The method according to claim 1, characterized in that, before determining the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information, further include:
接收资源配置信息,根据所述资源配置信息确定通过 PUCCH format 3发 送所述 HARQ-ACK反馈信息。 Receive resource configuration information, and determine to send the HARQ-ACK feedback information through PUCCH format 3 according to the resource configuration information.
3、 根据权利要求 1或 2所述的方法, 其特征在于, 所述在下行载波上检 测下行数据获得检测结果, 包括: 3. The method according to claim 1 or 2, characterized in that, detecting downlink data on the downlink carrier to obtain the detection result includes:
¾:^^ /1>一水固 甘^ /1、^? ^^^干 、〉( l·
.
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 包括: ¾:^^ /1>Gigant monohydrate^ /1, ^? ^^^dry,〉(l· . Determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result include:
根据所述网络设备预先配置的所述 PUCCH format 3资源确定所述第一 小区和所述第二小区中可用于发送所述 HARQ-ACK 反馈信息的所有所述 PUCCH format 3资源; Determine all the PUCCH format 3 resources in the first cell and the second cell that can be used to send the HARQ-ACK feedback information according to the PUCCH format 3 resources pre-configured by the network device;
根据在所述至少一个属于其它小区的下行载波上检测到的所述 PDSCH 的所述 PDCCH 中的传输功率控制 TPC 命令字段的信息获取发送所述 HARQ-ACK反馈信息的所述 PUCCH的资源索引。 Obtain the resource index of the PUCCH that sends the HARQ-ACK feedback information according to the information of the transmission power control TPC command field in the PDCCH of the PDSCH detected on the at least one downlink carrier belonging to other cells.
4、 根据权利要求 1或 2所述的方法, 其特征在于, 所述在下行载波上检 测下行数据获得检测结果, 包括: 4. The method according to claim 1 or 2, characterized in that, detecting downlink data on the downlink carrier to obtain the detection result includes:
在所述第一下行载波上检测到所述第一类下行数据, 在所述第二下行载 波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, The first type of downlink data is detected on the first downlink carrier, the first type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data; or,
在所述第一下行载波上检测到所述第二类下行数据, 在所述第二下行载 波上检测到所述第二类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, The second type of downlink data is detected on the first downlink carrier, the second type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data; or,
在所述第一下行载波上检测到所述第一类下行数据, 在所述第二下行载 波上检测到所述第二类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, The first type of downlink data is detected on the first downlink carrier, the second type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data; or,
在所述第一下行载波上检测到所述第二类下行数据, 在所述第二下行载 波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; The second type of downlink data is detected on the first downlink carrier, the first type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 包括: Determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result include:
确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format lb; Determine that the format of the PUCCH for sending the HARQ-ACK feedback information is a second format, and the second format is PUCCH format lb;
根据预先配置的信道选择方案确定所述第一上行载波或所述第二上行载 波的所述 PUCCH 的资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信息、 PUCCH的资源索引、 所述 HARQ-ACK反馈信息比 特之间的对应关系。
Determine the resource index of the PUCCH of the first uplink carrier or the second uplink carrier according to a preconfigured channel selection scheme, the channel selection scheme includes the preconfigured HARQ-ACK feedback information, the resource index of the PUCCH , the correspondence between the HARQ-ACK feedback information bits.
5、 根据权利要求 4所述的方法, 其特征在于, 所述根据预先配置的信道 选择方案确定所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源 索引之前, 还包括: 5. The method according to claim 4, characterized in that, before determining the resource index of the PUCCH of the first uplink carrier or the second uplink carrier according to the preconfigured channel selection scheme, it further includes:
在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第一上行载波上可用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或 者, 根据网络设备配置的在所述第一上行载波上的至少一个可用于反馈所述 第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息确定所述第一上行载波上可用 于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; In the first cell, determine the PUCCH resources on the first uplink carrier that can be used to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the configuration of the network device The information determined by at least one of the PUCCH resources on the first uplink carrier that can be used to feed back the detection result of the second type of downlink data and the most recent TPC command field in the PDCCH indicating the activation of the downlink SPS. The PUCCH resources on the first uplink carrier that can be used to send the HARQ-ACK feedback information;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第二上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资 源, 或者, 根据网络设备配置的在所述第二上行载波上的至少一个可用于反 馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所 述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行 载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源。 In the second cell, determine the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the network device At least one of the configured PUCCH resources on the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the most recent one of the TPC command fields in the PDCCH indicating activation of the downlink SPS The information determines the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information.
6、 根据权利要求 4或 5所述的方法, 其特征在于, 所述根据所述检测结 果, 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的 资源索引之前, 还包括: 6. The method according to claim 4 or 5, characterized in that, before determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result, it further includes:
接收网络设备发送的方案配置信息, 并根据所述方案配置信息确定是否 采用所述第二方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格 式、 PUCCH的资源索引。 Receive the scheme configuration information sent by the network device, and determine whether to use the second scheme according to the scheme configuration information to determine the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information.
7、 根据权利要求 1或 2所述的方法, 其特征在于, 所述在下行载波上检 测下行数据获得检测结果, 包括: 7. The method according to claim 1 or 2, characterized in that, detecting the downlink data on the downlink carrier to obtain the detection result includes:
在所述第一下行载波上检测到所述第一类下行数据; The first type of downlink data is detected on the first downlink carrier;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 Determining, based on the detection result, the method for sending the HARQ-ACK feedback information
PUCCH的格式、 PUCCH的资源索弓 |, 包括: PUCCH format, PUCCH resource index |, including:
根据所述第一类下行数据中的所述 PDCCH确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH 的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; It is determined according to the PDCCH in the first type of downlink data that the format of the PUCCH for sending the HARQ-ACK feedback information is a third format or a second format, and the third format is PUCCH format la, and the third format is PUCCH format la. The second format is PUCCH format lb;
根据公式 (1 )
"PUCCH "CCE 1、 PUCCH \ \ ) According to formula (1) "PUCCH "CCE 1 , PUCCH \ \ )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^t^H为网络设备配置的参数; Calculate and obtain the resource index "^" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, ^t^H is a parameter configured by the network device;
:网络设备使用两个天线时, 根据公式 (2 ) : When the network device uses two antennas, according to formula (2)
^PUCCH ― nCC +丄 + V^CCH 2 ) ^PUCCH ― n CC +丄+ V^CCH 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 。 Calculate and obtain the resource index of the PUCCH corresponding to the second antenna port.
8、 根据权利要求 1或 2所述的方法, 其特征在于, 所述在下行载波上检 测下行数据获得检测结果, 包括: 8. The method according to claim 1 or 2, characterized in that, detecting the downlink data on the downlink carrier to obtain the detection result includes:
在所述第一下行载波上检测到所述第二类下行数据; The second type of downlink data is detected on the first downlink carrier;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 包括: Determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result include:
确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所述第三格 式或所述第二格式; Determining that the format of the PUCCH for sending the HARQ-ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ 。 According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the latest one indicates the downlink SPS. The information of the TPC command field in the activated PDCCH determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port and the resource index corresponding to the second antenna The resource index "^ of the PUCCH of the first uplink carrier or the second uplink carrier of the port.
9、 根据权利要求 1~2、 7~8中任一项所述的方法, 其特征在于, 所述在 下行载波上检测下行数据获得检测结果, 包括: 9. The method according to any one of claims 1 to 2, 7 to 8, characterized in that the detection of downlink data on the downlink carrier to obtain the detection result includes:
在所述第二下行载波上检测到所述第一类下行数据; The first type of downlink data is detected on the second downlink carrier;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 Determining, based on the detection result, the method for sending the HARQ-ACK feedback information
PUCCH的格式、 PUCCH的资源索弓 |, 包括: PUCCH format, PUCCH resource index |, including:
根据所述第一类下行数据中的所述 PDCCH确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH 的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; It is determined according to the PDCCH in the first type of downlink data that the format of the PUCCH for sending the HARQ-ACK feedback information is a third format or a second format, and the third format is PUCCH format la, and the third format is PUCCH format la. The second format is PUCCH format lb;
根据公式 (1 )
"PUCCH "CCE 1、 PUCCH \ \ ) According to formula (1) "PUCCH "CCE 1 , PUCCH \ \ )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ , 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^t^H为网络设备配置的参数; Calculate and obtain the resource index "^" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, ^t^H is a parameter configured by the network device;
:网络设备使用两个天线时, 根据公式 (2 ) : When the network device uses two antennas, according to formula (2)
^PUCCH ― nCC +丄 + V^CCH 2 ) ^PUCCH ― n CC +丄+ V^CCH 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 。 Calculate and obtain the resource index of the PUCCH corresponding to the second antenna port.
10、 根据权利要求 1~2、 7~8 中任一项所述的方法, 其特征在于, 所述 在下行载波上检测下行数据获得检测结果, 包括: 10. The method according to any one of claims 1 to 2 and 7 to 8, characterized in that the detection of downlink data on the downlink carrier to obtain the detection result includes:
在所述第二下行载波上检测到所述第二类下行数据; The second type of downlink data is detected on the second downlink carrier;
所述根据所述检测结果, 确定发送所述 HARQ-ACK 反馈信息的所述 PUCCH的格式、 PUCCH的资源索弓 |, 包括: Determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result include:
确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所述第三格 式或所述第二格式; Determining that the format of the PUCCH for sending the HARQ-ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ 。 According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the latest one indicates the downlink SPS. The information of the TPC command field in the activated PDCCH determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port and the resource index corresponding to the second antenna The resource index "^ of the PUCCH of the first uplink carrier or the second uplink carrier of the port.
11、 根据权利要求 1~10 中任一项所述的方法, 其特征在于, 所述根据 所述检测结果, 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引之后, 还包括: 11. The method according to any one of claims 1 to 10, characterized in that, after determining the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result , Also includes:
若确定在所述第一上行载波上发送所述 HARQ-ACK反馈信息, 则根据 所述第一下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息; If it is determined that the HARQ-ACK feedback information is sent on the first uplink carrier, the power control information of the PUCCH is obtained according to the information in the TPC command field in the PDCCH on the first downlink carrier. ;
若确定在所述第二上行载波上发送所述 HARQ-ACK反馈信息, 则根据 所述第二下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息。
If it is determined that the HARQ-ACK feedback information is sent on the second uplink carrier, the power control information of the PUCCH is obtained according to the information in the TPC command field in the PDCCH on the second downlink carrier.
12、 一种上行控制信道传输方法, 其特征在于, 包括: 12. An uplink control channel transmission method, characterized by including:
为用户设备 UE配置发送混合自动重传请求 HARQ-ACK反馈信息的物理 上行控制信道 PUCCH 的第一上行载波和第二上行载波, 其中, 所述第一上 行载波对应第一小区, 所述第二上行载波对应第二小区; Configure a first uplink carrier and a second uplink carrier of the physical uplink control channel PUCCH for sending hybrid automatic repeat request HARQ-ACK feedback information to the user equipment UE, where the first uplink carrier corresponds to the first cell, and the second The uplink carrier corresponds to the second cell;
通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于发送所述 Send downlink data to the UE through a downlink carrier, and determine that the UE can be used to send the
HARQ-ACK反馈信息的所述 PUCCH资源, 所述下行载波包括属于第一小区 的第一下行载波和 /或属于第二小区的第二下行载波和 /或至少一个属于其它 小区的下行载波, 所述下行数据为第一类下行数据或者第二类下行数据, 所 述第一类下行数据为由物理下行控制信道 PDCCH调度的物理下行共享数据 信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据 为没有 PDCCH调度的 PDSCH; The PUCCH resource of HARQ-ACK feedback information, the downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to other cells, The downlink data is the first type of downlink data or the second type of downlink data, and the first type of downlink data is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH that releases the downlink semi-static scheduling SPS, so The second type of downlink data is PDSCH without PDCCH scheduling;
根据确定的所述 PUCCH 资源检测所述 UE 在上行载波上发送的所述 HARQ-ACK反馈信息。 Detect the HARQ-ACK feedback information sent by the UE on the uplink carrier according to the determined PUCCH resource.
13、 根据权利要求 12 所述的方法, 其特征在于, 通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所 述 PUCCH资源之前, 还包括: 13. The method according to claim 12, characterized in that, before sending downlink data to the UE through a downlink carrier, before determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information, further comprising:
预先为所述 UE配置发送所述 HARQ-ACK反馈信息的所述 PUCCH的格 式为 PUCCH格式 format 3以及所述 UE发送所述 PUCCH format 3的信道资 源。 The format of the PUCCH for sending the HARQ-ACK feedback information is configured in advance for the UE as PUCCH format 3 and the channel resource for the UE to send the PUCCH format 3.
14、 根据权利要求 12或 13所述的方法, 其特征在于, 所述通过下行载 波向所述 UE发送下行数据,确定所述 UE可用于发送所述 HARQ-ACK反馈 信息的所述 PUCCH资源, 包括: 14. The method according to claim 12 or 13, wherein: sending downlink data to the UE through a downlink carrier determines the PUCCH resource that the UE can use to send the HARQ-ACK feedback information, include:
通过 个所述下行载波向所述 UE 发送所述下行数据, 然后假设所述 UE在 N2个所述下行载波上检测到了所述下行数据, 确定出 N3种所述 UE可 用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述 、 N2和 N3 为自然数, 且 N2≤N ≤∑ ¾; Send the downlink data to the UE through N 2 downlink carriers, and then assume that the UE detects the downlink data on N 2 downlink carriers, and determine that N 3 types of UE can be used to send the The PUCCH resource of HARQ-ACK feedback information, N 2 and N 3 are natural numbers, and N 2 ≤ N ≤ ∑ ¾;
所述根据确定的所述 Ρυδ&Η资源检测所述 UE在上行载波上发送的所述 HARQ-ACK反馈信息, 包括: The detection of the HARQ-ACK feedback information sent by the UE on the uplink carrier according to the determined Pυδ&H resource includes:
根据所述确定出 N3种所述 UE可用于发送所述 HARQ-ACK反馈信息的 所述 PUCCH资源检测所述 UE在上行载波上发送的所述 HARQ-ACK反馈信
According to the determined N 3 PUCCH resources that the UE can use to send the HARQ-ACK feedback information, detect the HARQ-ACK feedback information sent by the UE on the uplink carrier.
15、 根据权利要求 14所述的方法, 其特征在于, 所述通过下行载波向所 述 UE发送下行数据,确定所述 UE可用于发送所述 HARQ-ACK反馈信息的 所述 PUCCH资源, 包括: 15. The method according to claim 14, wherein: sending downlink data to the UE through a downlink carrier and determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
在所述至少一个属于其它小区的下行载波上向所述 UE发送下行数据, 同时在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH 中的 TPC命令字段的信息中携带所述 UE发送所述 HARQ-ACK反馈信息的 所述 PUCCH format 3的资源索引。 Downlink data is sent to the UE on the at least one downlink carrier belonging to other cells, and at the same time, the information of the TPC command field in the PDCCH of the downlink data on the at least one downlink carrier belonging to other cells is carried. The UE sends the resource index of the PUCCH format 3 of the HARQ-ACK feedback information.
16、 根据权利要求 15所述的方法, 其特征在于, 所述确定所述 UE可用 于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 16. The method according to claim 15, wherein the determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE在所述至少一个属于其它小区的下行载波上检测到所述下 行数据, 根据在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息确定所述 UE发送所述 HARQ-ACK反馈信 息的所述 PUCCH format 3的资源索引。 Assuming that the UE detects the downlink data on the at least one downlink carrier belonging to other cells, according to the information of the TPC command field in the PDCCH of the downlink data on the at least one downlink carrier belonging to other cells. Determine the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
17、 根据权利要求 14或 15所述的方法, 其特征在于, 所述确定所述 UE 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 17. The method according to claim 14 or 15, wherein the determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE 同时在所述第一下行载波和所述第二下行载波上检测到所 述下行数据且没有在属于其它小区的下行载波上检测到所述下行数据, 为所 述 UE配置信道选择方案,根据所述信道选择方案确定所述 UE在所述第一上 行载波或所述第二上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH format lb的资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK 反馈信息、 上行载波的资源索引、 所述 HARQ-ACK反馈信息比特之间的对 应关系。 Assuming that the UE detects the downlink data on the first downlink carrier and the second downlink carrier at the same time and does not detect the downlink data on downlink carriers belonging to other cells, configure a channel for the UE Selection scheme: determine the resource index of the PUCCH format lb in which the UE sends the HARQ-ACK feedback information on the first uplink carrier or the second uplink carrier according to the channel selection scheme, the channel selection scheme The solution includes a preconfigured correspondence between the HARQ-ACK feedback information, the resource index of the uplink carrier, and the HARQ-ACK feedback information bits.
18、 根据权利要求 17所述的方法, 其特征在于, 所述为所述 UE配置信 道选择方案之前, 还包括: 18. The method according to claim 17, characterized in that, before configuring the channel selection scheme for the UE, further comprising:
在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所 述 UE在所述第一上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反
馈信息的所述 PUCCH资源,确定所述 UE在第一小区内用于发送 HARQ-ACK 反馈信息的 PUCCH资源; In the first cell, determine the PUCCH resource used by the UE to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the PUCCH resource for the UE in the first type of downlink data. At least one of the PUCCH resources configured on an uplink carrier that can be used to feed back the detection result of the second type of downlink data and all the information configured in the TPC command field in the latest PDCCH indicating activation of the downlink SPS. The UE sends the HARQ-ACK response The PUCCH resources that feed information, determine the PUCCH resources that the UE uses to send HARQ-ACK feedback information in the first cell;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所 述 UE在所述第二上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 In the second cell, determine the PUCCH resource used by the UE to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the PUCCH resource for the UE in the first type of downlink data. At least one of the PUCCH resources configured on two uplink carriers can be used to feed back the detection result of the second type of downlink data and the most recent one indicates activation of the downlink SPS.
PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH资源,确定所述 UE在第二小区内用于发送 HARQ-ACK 反馈信息的 PUCCH资源。 The PUCCH resource for the UE to send the HARQ-ACK feedback information configured in the information of the TPC command field in the PDCCH determines the PUCCH resource used by the UE to send the HARQ-ACK feedback information in the second cell.
19、 根据权利要求 14或 15所述的方法, 其特征在于, 所述确定所述 UE 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 19. The method according to claim 14 or 15, wherein the determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE在所述第一下行载波上检测到所述第一类下行数据, 根据 所述下行数据的所述 PDCCH使用的资源确定所述 UE发送所述 HARQ-ACK 反馈信息的所述 PUCCH资源; Assume that the UE detects the first type of downlink data on the first downlink carrier, and determines the method for the UE to send the HARQ-ACK feedback information according to the resources used by the PDCCH of the downlink data. PUCCH resources;
根据公式 (1 ) According to formula (1)
"PUCCH CCE PUCCH ( 1 ) "PUCCH CCE PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^Ι^Η为网络设备配置的参数; Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, where ^1^H is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH = η nCCE + 1 + Ν PUν>CCH ( 2、 ) "PUCCH = η n CCE + 1 + Ν PU ν> CCH (2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
20、 根据权利要求 14或 15所述的方法, 其特征在于, 所述确定所述 UE 可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 20. The method according to claim 14 or 15, wherein the determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE在所述第一下行载波上检测到所述第二类下行数据, 确定 所述 UE在所述第一上行载波或所述第二上行载波上用于反馈所述第二类下 行数据的检测结果的所述 PUCCH资源; Assume that the UE detects the second type of downlink data on the first downlink carrier, and determines that the UE uses the first uplink carrier or the second uplink carrier to feed back the second type of data. The PUCCH resource of the detection result of downlink data;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的
所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 1¾和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ^ H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first antenna port according to the information of the TPC command field in the PDCCH indicating the downlink SPS activation. The resource index of the PUCCH of the first uplink carrier or the second uplink carrier and the resource index of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port. ^ H .
21、 根据权利要求 14~15 19~20中任一项所述的方法, 其特征在于, 所 述确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 21. The method according to any one of claims 14 to 15 to 19 to 20, wherein determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE在所述第二下行载波上检测到所述第一类下行数据, 根据 所述下行数据的所述 PDCCH使用的资源确定所述 UE发送所述 HARQ-ACK 反馈信息的所述 PUCCH资源; Assume that the UE detects the first type of downlink data on the second downlink carrier, and determines the PUCCH for the UE to send the HARQ-ACK feedback information according to the resources used by the PDCCH of the downlink data. resource;
根据公式 (1 ) According to formula (1)
CCE 1 \ ) CCE 1 \ )
(1 (1
计算获取对应于第一天线端口的所述 PUCCH的资源索引 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, w ccH为网络设备配置的参数; Calculate and obtain the resource index of the PUCCH corresponding to the first antenna port, where " CCE is the first of the PDCCHs of the PDSCH scheduled on the first downlink carrier or the second downlink carrier. The sequence number of the control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, w ccH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
= n nCCE + 1 + Λ^(1) ,2 ) = n n CCE + 1 + Λ^ (1) ,2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ Calculate and obtain the resource index "^ of the PUCCH corresponding to the second antenna port
22、 根据权利要求 14~15 19-20中任一项所述的方法, 其特征在于, 所 述确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 包括: 22. The method according to any one of claims 14 to 15 19-20, wherein the determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information includes:
假设所述 UE在所述第二下行载波上检测到所述第二类下行数据, 确定 所述 UE在所述第一上行载波或所述第二上行载波上用于反馈所述第二类下 行数据的检测结果的所述 PUCCH资源; Assume that the UE detects the second type of downlink data on the second downlink carrier, and determines that the UE uses the first uplink carrier or the second uplink carrier to feed back the second type of downlink data. The PUCCH resource of the data detection result;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 1¾和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引"^ H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier or the first antenna port of the first antenna port according to the information of the TPC command field in the PDCCH indicating the activation of the downlink SPS. The resource index H of the PUCCH of the second uplink carrier and the resource index "H" of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port.
23、 根据权利要求 12~22中任一项所述的方法, 其特征在于, 所述通过
下行载波向所述 UE发送下行数据,确定所述 UE可用于发送所述 HARQ-ACK 反馈信息的所述 PUCCH资源之后, 还包括: 23. The method according to any one of claims 12 to 22, characterized in that: The downlink carrier sends downlink data to the UE, and after determining the PUCCH resource that the UE can use to send the HARQ-ACK feedback information, it also includes:
在所述第一下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC 命令字段的信息中携带所述 UE在所述第一上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH的功控信息; The information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier carries the information that the UE sends the HARQ-ACK feedback information on the first uplink carrier. The power control information of the PUCCH;
在所述第二下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC 命令字段的信息中携带所述 UE在所述第二上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH的功控信息。 The information of the TPC command field in the PDCCH in the downlink data on the second downlink carrier carries the information that the UE sends the HARQ-ACK feedback information on the second uplink carrier. Describes the power control information of PUCCH.
24、 一种用户设备 UE, 其特征在于, 包括: 24. A user equipment UE, characterized by: including:
载波确定模块, 用于确定可用于发送混合自动重传请求 HARQ-ACK反 馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上行载波, 其中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第二小区; A carrier determination module, configured to determine the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, The second uplink carrier corresponds to the second cell;
检测模块, 用于在下行载波上检测下行数据获得检测结果, 所述下行载 波包括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 / 或至少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者 第二类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度 的物理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH; A detection module, configured to detect downlink data on a downlink carrier to obtain a detection result. The downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or at least one belonging to other cells. The downlink carrier of the cell, the downlink data is the first type of downlink data or the second type of downlink data, the first type of downlink data is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the release of downlink semi-static scheduling PDCCH of SPS, the second type of downlink data is PDSCH without PDCCH scheduling;
资源确定模块, 用于根据所述检测结果, 确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH的格式、 PUCCH的资源索引; A resource determination module, configured to determine the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information according to the detection result;
所述资源确定模块, 具体用于如果在所述至少一个属于其它小区的下行 载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第一格式, 所述第一格式为 PUCCH格式 format 3 ; The resource determination module is specifically configured to determine that the format of the PUCCH for sending the HARQ-ACK feedback information is the first format if the downlink data is detected on the at least one downlink carrier belonging to other cells, The first format is PUCCH format format 3;
如果只在所述第一小区的所述第一下行载波和 /或所述第二小区的所述 第二下行载波上检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信 息的所述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format la或 者 PUCCH format lb。 If the downlink data is only detected on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, determine the method for sending the HARQ-ACK feedback information. The format of the PUCCH is a second format, and the second format is PUCCH format la or PUCCH format lb.
25、 根据权利要求 24所述的 UE, 其特征在于, 还包括: 25. The UE according to claim 24, further comprising:
格式确定模块, 用于接收资源配置信息, 根据所述资源配置信息确定通 过 PUCCH format 3发送所述 HARQ-ACK反馈信息。
A format determination module, configured to receive resource configuration information, and determine to send the HARQ-ACK feedback information through PUCCH format 3 according to the resource configuration information.
26、 根据权利要求 24或 25所述的 UE, 其特征在于, 所述检测模块, 具 体用于在所述至少一个属于其它小区的下行载波上检测到下行数据; 26. The UE according to claim 24 or 25, characterized in that the detection module is specifically configured to detect downlink data on the at least one downlink carrier belonging to other cells;
所述资源确定模块,具体用于根据所述网络设备预先配置的所述 PUCCH format 3 资源确定所述第一小区和所述第二小区中可用于发送所述 HARQ-ACK反馈信息的所有所述 PUCCH format 3资源; The resource determination module is specifically configured to determine all the resources in the first cell and the second cell that can be used to send the HARQ-ACK feedback information according to the PUCCH format 3 resources preconfigured by the network device. PUCCH format 3 resources;
根据在所述至少一个属于其它小区的下行载波上检测到的所述 PDSCH 的所述 PDCCH 中的传输功率控制 TPC 命令字段的信息获取发送所述 HARQ-ACK反馈信息的所述 PUCCH的资源索引。 Obtain the resource index of the PUCCH that sends the HARQ-ACK feedback information according to the information of the transmission power control TPC command field in the PDCCH of the PDSCH detected on the at least one downlink carrier belonging to other cells.
27、 根据权利要求 24或 25所述的 UE, 其特征在于, 所述检测模块, 具 体用于在所述第一下行载波上检测到所述第一类下行数据, 在所述第二下行 载波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波上检 测到下行数据; 或者, 27. The UE according to claim 24 or 25, characterized in that, the detection module is specifically configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier. The first type of downlink data is detected on the carrier, and no downlink data is detected on the downlink carrier belonging to other cells; or,
在所述第一下行载波上检测到所述第二类下行数据, 在所述第二下行载 波上检测到所述第二类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, The second type of downlink data is detected on the first downlink carrier, the second type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data; or,
在所述第一下行载波上检测到所述第一类下行数据, 在所述第二下行载 波上检测到所述第二类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, The first type of downlink data is detected on the first downlink carrier, the second type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data; or,
在所述第一下行载波上检测到所述第二类下行数据, 在所述第二下行载 波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; The second type of downlink data is detected on the first downlink carrier, the first type of downlink data is detected on the second downlink carrier, and downlink is not detected on downlink carriers belonging to other cells. data;
所述资源确定模块, 具体用于确定发送所述 HARQ-ACK反馈信息的所 述 PUCCH的格式为第二格式, 所述第二格式为 PUCCH format lb; The resource determination module is specifically used to determine that the format of the PUCCH for sending the HARQ-ACK feedback information is a second format, and the second format is PUCCH format lb;
根据预先配置的信道选择方案确定所述第一上行载波或所述第二上行载 波的所述 PUCCH 的资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信息、 PUCCH的资源索引、 所述 HARQ-ACK反馈信息比 特之间的对应关系。 Determine the resource index of the PUCCH of the first uplink carrier or the second uplink carrier according to a preconfigured channel selection scheme, the channel selection scheme includes the preconfigured HARQ-ACK feedback information, the resource index of the PUCCH , the correspondence between the HARQ-ACK feedback information bits.
28、 根据权利要求 27所述的 UE, 其特征在于, 所述资源确定模块, 还 用于在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第一上行载波上可用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或
者, 根据网络设备配置的在所述第一上行载波上的至少一个可用于反馈所述 第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息确定所述第一上行载波上可用 于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 28. The UE according to claim 27, characterized in that the resource determination module is further configured to determine the first first cell according to the PDCCH in the first type of downlink data in the first cell. PUCCH resources available on the uplink carrier for sending the HARQ-ACK feedback information, or Or, according to the configuration of the network device, at least one of the PUCCH resources on the first uplink carrier that can be used to feed back the detection result of the second type of downlink data and the most recent one of the PDCCHs indicating activation of the downlink SPS. The information in the TPC command field determines the PUCCH resources on the first uplink carrier that can be used to send the HARQ-ACK feedback information;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第二上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资 源, 或者, 根据网络设备配置的在所述第二上行载波上的至少一个可用于反 馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所 述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行 载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源。 In the second cell, determine the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the network device At least one of the configured PUCCH resources on the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the most recent one of the TPC command fields in the PDCCH indicating activation of the downlink SPS The information determines the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information.
29、 根据权利要求 27或 28所述的 UE, 其特征在于, 还包括: 29. The UE according to claim 27 or 28, further comprising:
方案配置接收模块, 用于接收网络设备发送的方案配置信息, 并根据所 述方案配置信息确定是否采用所述第二方案确定发送所述 HARQ-ACK反馈 信息的所述 PUCCH的格式、 PUCCH的资源索引。 A solution configuration receiving module, configured to receive the solution configuration information sent by the network device, and determine whether to use the second solution according to the solution configuration information to determine the format of the PUCCH and the resources of the PUCCH for sending the HARQ-ACK feedback information. index.
30、 根据权利要求 24或 25所述的 UE, 其特征在于, 所述检测模块, 具 体用于在所述第一下行载波上检测到所述第一类下行数据; 30. The UE according to claim 24 or 25, wherein the detection module is specifically configured to detect the first type of downlink data on the first downlink carrier;
所述资源确定模块,具体用于根据所述第一类下行数据中的所述 PDCCH 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第三格式或第二 格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; The resource determination module is specifically configured to determine, according to the PDCCH in the first type of downlink data, that the format of the PUCCH for sending the HARQ-ACK feedback information is a third format or a second format, and the third The format is PUCCH format la, and the second format is PUCCH format lb;
根据公式 (1 ) According to formula (1)
"PUCCH CCE PUCCH ( 1 ) "PUCCH CCE PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W^CH为网络设备配置的参数; Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, W^CH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH = n nCCE + 1 + N PUv>CCH ( 2、 ) "PUCCH = n n CCE + 1 + N PU v> CCH (2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
31、 根据权利要求 24或 25所述的 UE, 其特征在于, 所述检测模块, 具
体用于在所述第一下行载波上检测到所述第二类下行数据; 31. The UE according to claim 24 or 25, characterized in that, the detection module has The body is configured to detect the second type of downlink data on the first downlink carrier;
所述资源确定模块, 具体用于确定发送所述 HARQ-ACK反馈信息的所 述 PUCCH的格式为所述第三格式或所述第二格式; The resource determination module is specifically configured to determine that the format of the PUCCH for sending the HARQ-ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the latest one indicates the downlink SPS. The information of the TPC command field in the activated PDCCH determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port and the resource index corresponding to the second antenna The resource index of the PUCCH of the first uplink carrier or the second uplink carrier of the port
32、 根据权利要求 24~25 30~31中任一项所述的 UE, 其特征在于, 所 述检测模块, 具体用于在所述第二下行载波上检测到所述第一类下行数据; 所述资源确定模块,具体用于根据所述第一类下行数据中的所述 PDCCH 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为第三格式或第二 格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; 32. The UE according to any one of claims 24 to 25 to 30 to 31, characterized in that the detection module is specifically configured to detect the first type of downlink data on the second downlink carrier; The resource determination module is specifically configured to determine, according to the PDCCH in the first type of downlink data, that the format of the PUCCH for sending the HARQ-ACK feedback information is a third format or a second format, and the third The format is PUCCH format la, and the second format is PUCCH format lb;
根据公式 (1 ) According to formula (1)
CCE 1 \ ) CCE 1 \ )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W 为网络设备配置的参数; Calculate and obtain the resource index of the PUCCH corresponding to the first antenna port, where " CCE is the first of the PDCCHs of the PDSCH scheduled on the first downlink carrier or the second downlink carrier. The sequence number of the control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, W is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
= n nCCE + 1 + Λ^(1) ,2 ) = n n CCE + 1 + Λ^ (1) ,2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ Calculate and obtain the resource index "^ of the PUCCH corresponding to the second antenna port
33、 根据权利要求 24~25 30~31中任一项所述的 UE, 其特征在于, 所 述检测模块, 具体用于在所述第二下行载波上检测到所述第二类下行数据; 所述资源确定模块, 具体用于确定发送所述 HARQ-ACK反馈信息的所 述 PUCCH的格式为所述第三格式或所述第二格式; 33. The UE according to any one of claims 24 to 25 to 30 to 31, characterized in that the detection module is specifically configured to detect the second type of downlink data on the second downlink carrier; The resource determination module is specifically configured to determine that the format of the PUCCH for sending the HARQ-ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近
的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ H。 According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the most recent Information indicating the TPC command field in the PDCCH activated by the downlink SPS determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port. ^ and the resource index "^ H of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port.
34、 根据权利要求 24~33中任一项所述的 UE, 其特征在于, 还包括: 功控模块, 用于若确定在所述第一上行载波上发送所述 HARQ-ACK反 馈信息, 则根据所述第一下行载波上的所述 PDCCH中的所述 TPC命令字段 的信息获取所述 PUCCH的功控信息; 34. The UE according to any one of claims 24 to 33, further comprising: a power control module, configured to: if it is determined to send the HARQ-ACK feedback information on the first uplink carrier, then Obtain the power control information of the PUCCH according to the information of the TPC command field in the PDCCH on the first downlink carrier;
若确定在所述第二上行载波上发送所述 HARQ-ACK反馈信息, 则根据 所述第二下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 If it is determined that the HARQ-ACK feedback information is sent on the second uplink carrier, the information on the TPC command field in the PDCCH on the second downlink carrier is obtained.
PUCCH的功控信息。 PUCCH power control information.
35、 一种网络设备, 其特征在于, 包括: 35. A network device, characterized by including:
载波配置模块, 用于为用户设备 UE 配置发送混合自动重传请求 HARQ-ACK反馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上 行载波, 其中, 所述第一上行载波对应第一小区, 所述第二上行载波对应第 二小区; A carrier configuration module configured to configure the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH for sending hybrid automatic repeat request HARQ-ACK feedback information for the user equipment UE, wherein the first uplink carrier corresponds to the first Cell, the second uplink carrier corresponds to the second cell;
发送确定模块, 用于通过下行载波向所述 UE发送下行数据, 确定所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源, 所述下行载 波包括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 / 或至少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者 第二类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度 的物理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述第二类下行数据为没有 PDCCH调度的 PDSCH; A sending determination module, configured to send downlink data to the UE through a downlink carrier, and determine the PUCCH resource that the UE can use to send the HARQ-ACK feedback information, where the downlink carrier includes a first downlink link belonging to the first cell. The downlink carrier and/or the second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to other cells, the downlink data is the first type of downlink data or the second type of downlink data, the first type of downlink data It is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH that releases the downlink semi-static scheduling SPS, and the second type of downlink data is the PDSCH without PDCCH scheduling;
检测模块,用于根据确定的所述 PUCCH资源检测所述 UE在上行载波上 发送的所述 HARQ-ACK反馈信息。 A detection module, configured to detect the HARQ-ACK feedback information sent by the UE on the uplink carrier according to the determined PUCCH resource.
36、 根据权利要求 35所述的网络设备, 其特征在于, 还包括: 36. The network device according to claim 35, further comprising:
资源配置模块,用于预先为所述 UE配置发送所述 HARQ-ACK反馈信息 的所述 PUCCH 的格式为 PUCCH 格式 format 3 以及所述 UE 发送所述 PUCCH format 3的信道资源。 A resource configuration module configured to pre-configure the PUCCH format for the UE to send the HARQ-ACK feedback information as PUCCH format 3 and the channel resources for the UE to send the PUCCH format 3.
37、 根据权利要求 35或 36所述的网络设备, 其特征在于, 所述发送确
定模块, 具体用于通过 N1个所述下行载波向所述 UE发送所述下行数据, 然 后假设所述 UE在 N2个所述下行载波上检测到了所述下行数据, 确定出 N3 种所述 UE可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源,所述 Ni、 N2和 N3为自然数, 且 Ν2≤Ν N, ≤ ∑ CM N , 37. The network device according to claim 35 or 36, characterized in that: the sending confirmation A determining module, specifically configured to send the downlink data to the UE through N 1 downlink carriers, and then assuming that the UE detects the downlink data on N 2 downlink carriers, determine N 3 types The PUCCH resource that the UE can use to send the HARQ-ACK feedback information, Ni, N 2 and N 3 are natural numbers, and N 2 ≤ N N, ≤ ∑ C M N ,
所述检测模块, 具体用于根据所述确 N3种所述 UE可用于发送所述 The detection module is specifically configured to determine that the UE can be used to send the
HARQ-ACK反馈信息的所述 PUCCH资源检测所述 UE在上行载波上发送的 所述 HARQ-ACK反馈信息。 The PUCCH resource of the HARQ-ACK feedback information detects the HARQ-ACK feedback information sent by the UE on the uplink carrier.
38、根据权利要求 37所述的网络设备,其特征在于,所述发送确定模块, 具体用于在所述至少一个属于其它小区的下行载波上向所述 UE发送下行数 据, 同时在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息中携带所述 UE发送所述 HARQ-ACK反馈 信息的所述 PUCCH format 3的资源索引。 38. The network device according to claim 37, characterized in that the sending determination module is specifically configured to send downlink data to the UE on the at least one downlink carrier belonging to other cells, and at the same time on the at least one downlink carrier. The information in the TPC command field in the PDCCH of the downlink data on a downlink carrier belonging to another cell carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
39、根据权利要求 38所述的网络设备,其特征在于,所述发送确定模块, 具体用于假设所述 UE在所述至少一个属于其它小区的下行载波上检测到所 述下行数据, 根据在所述至少一个属于其它小区的下行载波上的所述下行数 据的 PDCCH中的 TPC命令字段的信息确定所述 UE发送所述 HARQ-ACK 反馈信息的所述 PUCCH format 3的资源索引。 39. The network device according to claim 38, characterized in that the transmission determination module is specifically configured to assume that the UE detects the downlink data on the at least one downlink carrier belonging to another cell, according to The information of the TPC command field in the PDCCH of the downlink data on the at least one downlink carrier belonging to other cells determines the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
40、 根据权利要求 37或 38所述的网络设备, 其特征在于, 所述发送确 定模块, 具体用于假设所述 UE 同时在所述第一下行载波和所述第二下行载 波上检测到所述下行数据且没有在属于其它小区的下行载波上检测到所述下 行数据, 为所述 UE配置信道选择方案,根据所述信道选择方案确定所述 UE 在所述第一上行载波或所述第二上行载波上发送所述 HARQ-ACK反馈信息 的所述 PUCCH format lb的资源索引, 所述信道选择方案包括预先配置的所 述 HARQ-ACK反馈信息、 上行载波的资源索引、 所述 HARQ-ACK反馈信息 比特之间的对应关系。 40. The network device according to claim 37 or 38, characterized in that the transmission determination module is specifically configured to assume that the UE detects on the first downlink carrier and the second downlink carrier at the same time The downlink data is not detected on downlink carriers belonging to other cells, a channel selection scheme is configured for the UE, and it is determined according to the channel selection scheme that the UE is on the first uplink carrier or the first uplink carrier. The resource index of the PUCCH format lb for transmitting the HARQ-ACK feedback information on the second uplink carrier. The channel selection scheme includes the preconfigured HARQ-ACK feedback information, the resource index of the uplink carrier, the HARQ- Correspondence between ACK feedback information bits.
41、根据权利要求 40所述的网络设备,其特征在于,所述发送确定模块, 还用于在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定 所述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为 所述 UE在所述第一上行载波上配置的至少一个可用于反馈所述第二类下行 数据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活
的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK 反馈信息的所述 PUCCH 资源, 确定所述 UE 在第一小区内用于发送 HARQ-ACK反馈信息的 PUCCH资源; 41. The network device according to claim 40, characterized in that the transmission determination module is further configured to determine the UE according to the PDCCH in the first type of downlink data in the first cell. PUCCH resources used to send the HARQ-ACK feedback information, or, according to at least one PUCCH configured for the UE on the first uplink carrier, which can be used to feed back the detection results of the second type of downlink data. resources and downstream SPS activation as indicated in the most recent The PUCCH resource for the UE to send the HARQ-ACK feedback information configured in the information of the TPC command field in the PDCCH, determine the PUCCH resource used by the UE to send the HARQ-ACK feedback information in the first cell;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所 述 UE在所述第二上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH资源,确定所述 UE在第二小区内用于发送 HARQ-ACK 反馈信息的 PUCCH资源。 In the second cell, determine the PUCCH resource used by the UE to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the PUCCH resource for the UE in the first type of downlink data. At least one of the PUCCH resources configured on two uplink carriers can be used to feed back the detection result of the second type of downlink data and all the information configured in the TPC command field in the most recent PDCCH indicating activation of the downlink SPS. The PUCCH resource used by the UE to send the HARQ-ACK feedback information is determined, and the PUCCH resource used by the UE to send the HARQ-ACK feedback information in the second cell is determined.
42、 根据权利要求 37或 38所述的网络设备, 其特征在于, 所述发送确 定模块, 具体用于假设所述 UE在所述第一下行载波上检测到所述第一类下 行数据,根据所述下行数据的所述 PDCCH使用的资源确定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 42. The network device according to claim 37 or 38, wherein the transmission determination module is specifically configured to assume that the UE detects the first type of downlink data on the first downlink carrier, Determine the PUCCH resource for the UE to send the HARQ-ACK feedback information according to the resource used by the PDCCH of the downlink data;
根据公式 (1 ) According to formula (1)
"PUCCH CCE PUCCH ( 1 ) "PUCCH CCE PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, ^Ι^Η为网络设备配置的参数; Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, where ^1^H is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH = η nCCE + 1 + Ν PUν>CCH ( 2、 ) "PUCCH = η n CCE + 1 + Ν PU ν> CCH (2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
43、 根据权利要求 37或 38所述的网络设备, 其特征在于, 所述发送确 定模块, 具体用于假设所述 UE在所述第一下行载波上检测到所述第二类下 行数据, 确定所述 UE在所述第一上行载波或所述第二上行载波上用于反馈 所述第二类下行数据的检测结果的所述 PUCCH资源; 43. The network device according to claim 37 or 38, wherein the transmission determination module is specifically configured to assume that the UE detects the second type of downlink data on the first downlink carrier, Determine the PUCCH resource used by the UE to feed back the detection result of the second type of downlink data on the first uplink carrier or the second uplink carrier;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 UCCH和对
应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引"^ H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier or the first antenna port of the first antenna port according to the information of the TPC command field in the PDCCH indicating the activation of the downlink SPS. The resource index UCCH of the PUCCH of the two uplink carriers and the The resource index "^ H " of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the second antenna port.
44、根据权利要求 37~38、 42-43中任一项所述的网络设备,其特征在于, 所述发送确定模块, 具体用于假设所述 UE在所述第二下行载波上检测到所 述第一类下行数据, 根据所述下行数据的所述 PDCCH使用的资源确定所述 UE发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 44. The network device according to any one of claims 37 to 38 and 42 to 43, characterized in that: the transmission determination module is specifically configured to assume that the UE detects that the UE detects the signal on the second downlink carrier. For the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information is determined according to the resource used by the PDCCH of the downlink data;
根据公式 (1 ) According to formula (1)
"PUCCH 〃CCE τ PUCCH ( 1 ) "PUCCH 〃CCE τ PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W^CCH为网络设备配置的参数; Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where "CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, W^CCH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH "CCE PUCCH ( 2 ) "PUCCH "CCE PUCCH ( 2 )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
45、根据权利要求 37~38、 42-43中任一项所述的网络设备,其特征在于, 所述发送确定模块, 具体用于假设所述 UE在所述第二下行载波上检测到所 述第二类下行数据, 确定所述 UE在所述第一上行载波或所述第二上行载波 上用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源; 45. The network device according to any one of claims 37 to 38 and 42 to 43, characterized in that: the transmission determination module is specifically configured to assume that the UE detects that the For the second type of downlink data, determine the PUCCH resource used by the UE to feed back the detection result of the second type of downlink data on the first uplink carrier or the second uplink carrier;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ^ H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier or the first antenna port of the first antenna port according to the information of the TPC command field in the PDCCH indicating the activation of the downlink SPS. The resource index of the PUCCH of the second uplink carrier and the resource index of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port " ^ H .
46、 根据权利要求 35~45中任一项所述的网络设备, 其特征在于, 还包 括: 46. The network device according to any one of claims 35 to 45, further comprising:
功控模块,用于在所述第一下行载波上的所述下行数据中的所述 PDCCH 中的所述 TPC命令字段的信息中携带所述 UE在所述第一上行载波上发送所 述 HARQ-ACK反馈信息的所述 PUCCH的功控信息; A power control module configured to carry the UE in the information of the TPC command field in the PDCCH in the downlink data on the first downlink carrier and send the The power control information of the PUCCH of the HARQ-ACK feedback information;
在所述第二下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC
命令字段的信息中携带所述 UE在所述第二上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH的功控信息。 the TPC in the PDCCH in the downlink data on the second downlink carrier The information in the command field carries the power control information of the PUCCH used by the UE to send the HARQ-ACK feedback information on the second uplink carrier.
47、 一种用户设备 UE, 其特征在于, 包括 47. A user equipment UE, characterized by including:
处理器, 用于确定可用于发送混合自动重传请求 HARQ-ACK反馈信息 的物理上行控制信道 PUCCH的第一上行载波和第二上行载波, 其中, 所述 第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 在下行载波 上检测下行数据获得检测结果, 所述下行载波包括属于第一小区的第一下行 载波和 /或属于第二小区的第二下行载波和 /或至少一个属于其它小区的下行 载波, 所述下行数据为第一类下行数据或者第二类下行数据, 所述第一类下 行数据为由物理下行控制信道 PDCCH调度的物理下行共享数据信道 PDSCH 或者释放下行半静态调度 SPS 的 PDCCH , 所述第二类下行数据为没有 PDCCH调度的 PDSCH; 根据所述检测结果, 确定发送所述 HARQ-ACK反 馈信息的所述 PUCCH的格式、 PUCCH的资源索引; A processor configured to determine the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH that can be used to send hybrid automatic repeat request HARQ-ACK feedback information, where the first uplink carrier corresponds to the first cell, so The second uplink carrier corresponds to the second cell; detecting downlink data on the downlink carrier to obtain a detection result, the downlink carrier includes a first downlink carrier belonging to the first cell and/or a second downlink carrier belonging to the second cell and/or Or at least one downlink carrier belonging to other cells, the downlink data is the first type of downlink data or the second type of downlink data, the first type of downlink data is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or Release the PDCCH of the downlink semi-statically scheduled SPS, and the second type of downlink data is the PDSCH without PDCCH scheduling; according to the detection result, determine the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information;
所述处理器, 具体用于如果在所述至少一个属于其它小区的下行载波上 检测到所述下行数据, 则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为第一格式, 所述第一格式为 PUCCH格式 format 3; 如果只在所述 第一小区的所述第一下行载波和 /或所述第二小区的所述第二下行载波上检 测到所述下行数据,则确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的 格式为第二格式, 所述第二格式为 PUCCH format la或者 PUCCH format lb。 The processor is specifically configured to determine that the format of the PUCCH for sending the HARQ-ACK feedback information is the first format if the downlink data is detected on the at least one downlink carrier belonging to other cells, so The first format is PUCCH format format 3; If the downlink data is detected only on the first downlink carrier of the first cell and/or the second downlink carrier of the second cell, then It is determined that the format of the PUCCH for sending the HARQ-ACK feedback information is a second format, and the second format is PUCCH format la or PUCCH format lb.
48、 根据权利要求 47所述的 UE, 其特征在于, 还包括: 48. The UE according to claim 47, further comprising:
接收器, 用于接收资源配置信息; Receiver, used to receive resource configuration information;
所述处理器, 具体用于根据所述资源配置信息确定通过 PUCCH format 3 发送所述 HARQ-ACK反馈信息。 The processor is specifically configured to determine, according to the resource configuration information, to send the HARQ-ACK feedback information through PUCCH format 3.
49、 根据权利要求 47或 48所述的 UE, 其特征在于, 所述处理器, 具体 用于在所述至少一个属于其它小区的下行载波上检测到下行数据; 根据所述 网络设备预先配置的所述 PUCCH format 3资源确定所述第一小区和所述第 二小区中可用于发送所述 HARQ-ACK反馈信息的所有所述 PUCCH format 3 资源; 根据在所述至少一个属于其它小区的下行载波上检测到的所述 PDSCH的所述 PDCCH中的传输功率控制 TPC命令字段的信息获取发送所述
HARQ-ACK反馈信息的所述 PUCCH的资源索引。 49. The UE according to claim 47 or 48, characterized in that, the processor is specifically configured to detect downlink data on the at least one downlink carrier belonging to other cells; according to the preconfigured configuration of the network device The PUCCH format 3 resources determine all the PUCCH format 3 resources in the first cell and the second cell that can be used to send the HARQ-ACK feedback information; according to the at least one downlink carrier belonging to other cells. On the detected PDSCH, the information of the transmission power control TPC command field in the PDCCH is acquired and sent. The resource index of the PUCCH of the HARQ-ACK feedback information.
50、 根据权利要求 47或 48所述的 UE, 其特征在于, 所述处理器, 具体 用于在所述第一下行载波上检测到所述第一类下行数据, 在所述第二下行载 波上检测到所述第一类下行数据, 且没有在属于其它小区的下行载波上检测 到下行数据; 或者, 在所述第一下行载波上检测到所述第二类下行数据, 在 所述第二下行载波上检测到所述第二类下行数据, 且没有在属于其它小区的 下行载波上检测到下行数据; 或者, 在所述第一下行载波上检测到所述第一 类下行数据, 在所述第二下行载波上检测到所述第二类下行数据, 且没有在 属于其它小区的下行载波上检测到下行数据; 或者, 在所述第一下行载波上 检测到所述第二类下行数据, 在所述第二下行载波上检测到所述第一类下行 数据, 且没有在属于其它小区的下行载波上检测到下行数据; 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为第二格式, 所述第二格式为 PUCCH format lb; 根据预先配置的信道选择方案确定所述第一上行载波或 所述第二上行载波的所述 PUCCH 的资源索引, 所述信道选择方案包括预先 配置的所述 HARQ-ACK反馈信息、 PUCCH的资源索引、 所述 HARQ-ACK 反馈信息比特之间的对应关系。 50. The UE according to claim 47 or 48, characterized in that the processor is specifically configured to detect the first type of downlink data on the first downlink carrier, and detect the first type of downlink data on the second downlink carrier. The first type of downlink data is detected on the carrier, and no downlink data is detected on the downlink carrier belonging to other cells; or, the second type of downlink data is detected on the first downlink carrier, where The second type of downlink data is detected on the second downlink carrier, and no downlink data is detected on the downlink carrier belonging to other cells; or, the first type of downlink data is detected on the first downlink carrier. data, the second type of downlink data is detected on the second downlink carrier, and no downlink data is detected on downlink carriers belonging to other cells; or, the second type of downlink data is detected on the first downlink carrier. The second type of downlink data, the first type of downlink data is detected on the second downlink carrier, and no downlink data is detected on the downlink carrier belonging to other cells; determine all the sources that send the HARQ-ACK feedback information The format of the PUCCH is a second format, and the second format is PUCCH format lb; the resource index of the PUCCH of the first uplink carrier or the second uplink carrier is determined according to a preconfigured channel selection scheme, The channel selection scheme includes a preconfigured correspondence between the HARQ-ACK feedback information, the resource index of the PUCCH, and the HARQ-ACK feedback information bits.
51、 根据权利要求 50所述的 UE, 其特征在于, 所述处理器, 还用于在 所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所述第一 上行载波上可用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根 据网络设备配置的在所述第一上行载波上的至少一个可用于反馈所述第二类 下行数据的检测结果的所述 PUCCH资源和最近的一个指示所述下行 SPS激 活的 PDCCH中的 TPC命令字段的信息确定所述第一上行载波上可用于发送 所述 HARQ-ACK反馈信息的所述 PUCCH资源; 51. The UE according to claim 50, characterized in that the processor is further configured to determine the first uplink based on the PDCCH in the first type of downlink data in the first cell. PUCCH resources on the carrier that can be used to send the HARQ-ACK feedback information, or, according to the configuration of the network device, at least one of the PUCCH resources on the first uplink carrier that can be used to feed back the detection results of the second type of downlink data. PUCCH resources and the information of the most recent TPC command field in the PDCCH indicating activation of the downlink SPS determine the PUCCH resources available on the first uplink carrier for sending the HARQ-ACK feedback information;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述第二上行载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资 源, 或者, 根据网络设备配置的在所述第二上行载波上的至少一个可用于反 馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近的一个指示所 述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定所述第二上行 载波上可用于发送所述 HARQ-ACK反馈信息的所述 PUCCH资源。 In the second cell, determine the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the network device At least one of the configured PUCCH resources on the second uplink carrier that can be used to feed back the detection result of the second type of downlink data and the most recent one of the TPC command fields in the PDCCH indicating activation of the downlink SPS The information determines the PUCCH resources on the second uplink carrier that can be used to send the HARQ-ACK feedback information.
52、 根据权利要求 50或 51所述的 UE, 其特征在于, 所述处理器, 还用
于接收网络设备发送的方案配置信息, 并根据所述方案配置信息确定是否采 用所述第二方案确定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式、 PUCCH的资源索引。 52. The UE according to claim 50 or 51, characterized in that the processor further uses Receive the scheme configuration information sent by the network device, and determine whether to use the second scheme according to the scheme configuration information to determine the format of the PUCCH and the resource index of the PUCCH for sending the HARQ-ACK feedback information.
53、 根据权利要求 47或 48所述的 UE, 其特征在于, 所述处理器, 具体 用于在所述第一下行载波上检测到所述第一类下行数据; 根据所述第一类下 行数据中的所述 PDCCH确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第 二格式为 PUCCH format lb; 53. The UE according to claim 47 or 48, wherein the processor is specifically configured to detect the first type of downlink data on the first downlink carrier; The PDCCH in the downlink data determines that the format of the PUCCH for sending the HARQ-ACK feedback information is a third format or a second format, the third format is PUCCH format la, and the second format is PUCCH format lb ;
根据公式 (1 ) According to formula (1)
"PUCCH― nCCE PUCCH ( 1 ) "PUCCH― n CCE PUCCH (1)
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W^CH为网络设备配置的参数; Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where " CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, W^CH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"PUCCH = n nCCE + 1 + N PUv>CCH ( 2、 ) "PUCCH = n n CCE + 1 + N PU v> CCH (2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
54、 根据权利要求 47或 48所述的 UE, 其特征在于, 所述处理器, 具体 用于在所述第一下行载波上检测到所述第二类下行数据; 确定发送所述 HARQ-ACK反馈信息的所述 PUCCH 的格式为所述第三格式或所述第二格 式; 54. The UE according to claim 47 or 48, characterized in that: the processor is specifically configured to detect the second type of downlink data on the first downlink carrier; determine to send the HARQ- The format of the PUCCH of the ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ H。 According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the latest one indicates the downlink SPS. The information of the TPC command field in the activated PDCCH determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port and the resource index corresponding to the second antenna The resource index "^ H of the PUCCH of the first uplink carrier or the second uplink carrier of the port.
55、 根据权利要求 47~48、 53~51中任一项所述的 UE, 其特征在于, 所 述处理器, 具体用于在所述第二下行载波上检测到所述第一类下行数据; 根 据所述第一类下行数据中的所述 PDCCH确定发送所述 HARQ-ACK反馈信息
的所述 PUCCH 的格式为第三格式或第二格式, 所述第三格式为 PUCCH format la, 所述第二格式为 PUCCH format lb; 55. The UE according to any one of claims 47 to 48 and 53 to 51, characterized in that the processor is specifically configured to detect the first type of downlink data on the second downlink carrier. ; Determine to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data The format of the PUCCH is a third format or a second format, the third format is PUCCH format la, and the second format is PUCCH format lb;
根据公式 (1 ) According to formula (1)
"PUCCH PUCCH ( 1 ) "PUCCH PUCCH ( 1 )
计算获取对应于第一天线端口的所述 PUCCH的资源索引 "^ Η, 其中, Calculate and obtain the resource index "^H" of the PUCCH corresponding to the first antenna port, where,
"CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, W^CH为网络设备配置的参数; " CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first of the PDCCH of the released downlink SPS The serial number of a CCE, W^CH is the parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2 ) If the network device uses two antennas, according to formula (2)
"jPUCCH― N P(Ul)CCH ( / 2、 ) "jPUCCH― NP ( U l) CCH ( / 2, )
计算获取对应于第二天线端口的所述 PUCCH的资源索引 "^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
56、 根据权利要求 47~48、 53~54中任一项所述的 UE, 其特征在于, 所 述处理器, 具体用于在所述第二下行载波上检测到所述第二类下行数据; 确 定发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式为所述第三格式或所 述第二格式; 56. The UE according to any one of claims 47 to 48 and 53 to 54, characterized in that the processor is specifically configured to detect the second type of downlink data on the second downlink carrier. ; Determine that the format of the PUCCH for sending the HARQ-ACK feedback information is the third format or the second format;
根据网络设备配置的在所述第一上行载波或所述第二上行载波上的至少 一个可用于反馈所述第二类下行数据的检测结果的所述 PUCCH资源和最近 的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字段的信息确定 对应于第一天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引 "^¾^和对应于第二天线端口的所述第一上行载波或所述 第二上行载波的所述 PUCCH的资源索引 "^ H。 According to the network device configuration, at least one of the PUCCH resources on the first uplink carrier or the second uplink carrier can be used to feed back the detection result of the second type of downlink data and the latest one indicates the downlink SPS. The information of the TPC command field in the activated PDCCH determines the resource index of the PUCCH corresponding to the first uplink carrier or the second uplink carrier of the first antenna port and the resource index corresponding to the second antenna The resource index "^ H of the PUCCH of the first uplink carrier or the second uplink carrier of the port.
57、 根据权利要求 47~56中任一项所述的方法, 其特征在于, 所述处理 器, 还用于若确定在所述第一上行载波上发送所述 HARQ-ACK反馈信息, 则根据所述第一下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获 取所述 PUCCH 的功控信息; 若确定在所述第二上行载波上发送所述 HARQ-ACK反馈信息, 则根据所述第二下行载波上的所述 PDCCH中的所述 TPC命令字段的信息获取所述 PUCCH的功控信息。 57. The method according to any one of claims 47 to 56, wherein the processor is further configured to: if it is determined to send the HARQ-ACK feedback information on the first uplink carrier, according to The information of the TPC command field in the PDCCH on the first downlink carrier obtains the power control information of the PUCCH; if it is determined to send the HARQ-ACK feedback information on the second uplink carrier, then The power control information of the PUCCH is obtained according to the information of the TPC command field in the PDCCH on the second downlink carrier.
58、 一种网络设备, 其特征在于, 包括: 58. A network device, characterized by: including:
处理器,用于为用户设备 UE配置发送混合自动重传请求 HARQ-ACK反 馈信息的物理上行控制信道 PUCCH的第一上行载波和第二上行载波, 其中,
所述第一上行载波对应第一小区, 所述第二上行载波对应第二小区; 发送器, 用于通过下行载波向所述 UE发送下行数据, 所述下行载波包 括属于第一小区的第一下行载波和 /或属于第二小区的第二下行载波和 /或至 少一个属于其它小区的下行载波, 所述下行数据为第一类下行数据或者第二 类下行数据, 所述第一类下行数据为由物理下行控制信道 PDCCH调度的物 理下行共享数据信道 PDSCH或者释放下行半静态调度 SPS的 PDCCH, 所述 第二类下行数据为没有 PDCCH调度的 PDSCH; A processor configured to configure the first uplink carrier and the second uplink carrier of the physical uplink control channel PUCCH for sending hybrid automatic repeat request HARQ-ACK feedback information for the user equipment UE, wherein, The first uplink carrier corresponds to a first cell, and the second uplink carrier corresponds to a second cell; a transmitter, configured to send downlink data to the UE through a downlink carrier, where the downlink carrier includes a first cell belonging to the first cell. The downlink carrier and/or the second downlink carrier belonging to the second cell and/or at least one downlink carrier belonging to other cells, the downlink data is the first type of downlink data or the second type of downlink data, the first type of downlink data The data is the physical downlink shared data channel PDSCH scheduled by the physical downlink control channel PDCCH or the PDCCH that releases the downlink semi-static scheduling SPS. The second type of downlink data is the PDSCH without PDCCH scheduling;
所述处理器,还用于确定所述 UE可用于发送所述 HARQ-ACK反馈信息 的所述 PUCCH资源;根据确定的所述 PUCCH资源检测所述 UE在上行载波 上发送的所述 HARQ-ACK反馈信息。 The processor is further configured to determine the PUCCH resource that the UE can use to send the HARQ-ACK feedback information; and detect the HARQ-ACK sent by the UE on the uplink carrier according to the determined PUCCH resource. Feedback.
59、 根据权利要求 58所述的网络设备, 其特征在于, 所述处理器, 还用 于预先为所述 UE配置发送所述 HARQ-ACK反馈信息的所述 PUCCH的格式 为 PUCCH格式 format 3以及所述 UE发送所述 PUCCH format 3的信道资源。 59. The network device according to claim 58, characterized in that the processor is further configured to pre-configure the PUCCH format for the UE to send the HARQ-ACK feedback information to PUCCH format format 3 and The UE sends the channel resources of the PUCCH format 3.
60、 根据权利要求 58或 59所述的网络设备, 其特征在于, 所述发送器, 具体用于通过 N1个所述下行载波向所述 UE发送所述下行数据; 60. The network device according to claim 58 or 59, wherein the transmitter is specifically configured to send the downlink data to the UE through N 1 downlink carriers;
所述处理器, 具体用于假设所述 UE在 N2个所述下行载波上检测到了所 述下行数据, 确定出 N3种所述 UE可用于发送所述 HARQ-ACK反馈信息的 所述 PUCCH资源, 所述 Ni、 N P N3为自然数, 且 N2≤Ni, N, ≤ ∑ ¾; 根据所述确定出 N3种所述 UE可用于发送所述 HARQ-ACK反馈信倉 ¾所述 PUCCH资源检测所述 UE在上行载波上发送的所述 HARQ-ACK反馈信息。 The processor is specifically configured to assume that the UE detects the downlink data on N 2 downlink carriers, and determine N 3 kinds of PUCCHs that the UE can use to send the HARQ-ACK feedback information. resources, the Ni and NPN 3 are natural numbers, and N 2 ≤ Ni, N, ≤ ∑ ¾; According to the determination, N 3 kinds of the UE can be used to send the HARQ-ACK feedback information and the PUCCH resources Detect the HARQ-ACK feedback information sent by the UE on the uplink carrier.
61、 根据权利要求 60所述的网络设备, 其特征在于, 所述发送器, 具体 用于在所述至少一个属于其它小区的下行载波上向所述 UE发送下行数据, 同时在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH 中的 TPC命令字段的信息中携带所述 UE发送所述 HARQ-ACK反馈信息的 所述 PUCCH format 3的资源索引。 61. The network device according to claim 60, characterized in that, the transmitter is specifically configured to send downlink data to the UE on the at least one downlink carrier belonging to other cells, and simultaneously on the at least one downlink carrier. The information in the TPC command field in the PDCCH of the downlink data on the downlink carrier belonging to other cells carries the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
62、 根据权利要求 61所述的网络设备, 其特征在于, 所述处理器, 具体 用于假设所述 UE在所述至少一个属于其它小区的下行载波上检测到所述下 行数据, 根据在所述至少一个属于其它小区的下行载波上的所述下行数据的 PDCCH中的 TPC命令字段的信息确定所述 UE发送所述 HARQ-ACK反馈信 息的所述 PUCCH format 3的资源索引。
62. The network device according to claim 61, characterized in that, the processor is specifically configured to assume that the UE detects the downlink data on the at least one downlink carrier belonging to other cells, according to the The information of the TPC command field in the PDCCH of the downlink data on at least one downlink carrier belonging to another cell determines the resource index of the PUCCH format 3 in which the UE sends the HARQ-ACK feedback information.
63、 根据权利要求 60或 61所述的网络设备, 其特征在于, 所述处理器, 具体用于假设所述 UE 同时在所述第一下行载波和所述第二下行载波上检测 到所述下行数据且没有在属于其它小区的下行载波上检测到所述下行数据, 为所述 UE配置信道选择方案,根据所述信道选择方案确定所述 UE在所述第 —上行载波或所述第二上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH format lb 的资源索引, 所述信道选择方案包括预先配置的所述 HARQ-ACK反馈信息、 上行载波的资源索引、 所述 HARQ-ACK反馈信息比 特之间的对应关系。 63. The network device according to claim 60 or 61, characterized in that the processor is specifically configured to assume that the UE detects the first downlink carrier and the second downlink carrier at the same time. and the downlink data is not detected on downlink carriers belonging to other cells, configure a channel selection scheme for the UE, and determine according to the channel selection scheme that the UE is on the -th uplink carrier or the -th uplink carrier. The resource index of the PUCCH format lb that transmits the HARQ-ACK feedback information on two uplink carriers. The channel selection scheme includes the preconfigured HARQ-ACK feedback information, the resource index of the uplink carrier, the HARQ-ACK Correspondence between feedback information bits.
64、 根据权利要求 63所述的网络设备, 其特征在于, 所述处理器, 还用 于在所述第一小区内, 根据所述第一类下行数据中的所述 PDCCH确定所述 64. The network device according to claim 63, wherein the processor is further configured to determine the PDCCH in the first type of downlink data in the first cell.
UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所述 UE 在所述第一上行载波上配置的至少一个可用于反馈所述第二类下行数据 的检测结果的所述 PUCCH 资源和在最近的一个指示所述下行 SPS 激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH资源,确定所述 UE在第一小区内用于发送 HARQ-ACK 反馈信息的 PUCCH资源; The PUCCH resource used by the UE to send the HARQ-ACK feedback information, or, according to at least one configured for the UE on the first uplink carrier, which can be used to feed back the detection result of the second type of downlink data. The PUCCH resource and the PUCCH resource configured in the latest TPC command field in the PDCCH indicating the downlink SPS activation are used by the UE to send the HARQ-ACK feedback information, and it is determined that the UE is in the first cell PUCCH resources used to send HARQ-ACK feedback information;
在所述第二小区内, 根据所述第一类下行数据中的所述 PDCCH确定所 述 UE用于发送所述 HARQ-ACK反馈信息的 PUCCH资源, 或者, 根据为所 述 UE在所述第二上行载波上配置的至少一个可用于反馈所述第二类下行数 据的检测结果的所述 PUCCH资源和在最近的一个指示所述下行 SPS激活的 PDCCH中的 TPC命令字段的信息中配置的所述 UE发送所述 HARQ-ACK反 馈信息的所述 PUCCH资源,确定所述 UE在第二小区内用于发送 HARQ-ACK 反馈信息的 PUCCH资源。 In the second cell, determine the PUCCH resource used by the UE to send the HARQ-ACK feedback information according to the PDCCH in the first type of downlink data, or, according to the PUCCH resource for the UE in the first type of downlink data. At least one of the PUCCH resources configured on two uplink carriers can be used to feed back the detection result of the second type of downlink data and all the information configured in the TPC command field in the most recent PDCCH indicating activation of the downlink SPS. The PUCCH resource used by the UE to send the HARQ-ACK feedback information is determined, and the PUCCH resource used by the UE to send the HARQ-ACK feedback information in the second cell is determined.
65、 根据权利要求 60或 61所述的网络设备, 其特征在于, 所述处理器, 具体用于假设所述 UE在所述第一下行载波上检测到所述第一类下行数据, 根据所述下行数据的所述 PDCCH 使用的资源确定所述 UE 发送所述 HARQ-ACK反馈信息的所述 PUCCH资源; 65. The network device according to claim 60 or 61, wherein the processor is specifically configured to assume that the UE detects the first type of downlink data on the first downlink carrier, according to The resource used by the PDCCH of the downlink data determines the PUCCH resource by which the UE sends the HARQ-ACK feedback information;
根据公式 (1 ) According to formula (1)
= ^CCE ( j ) = ^CCE(j)
计算获取对应于第一天线端口的所述 PUCCH的咨源索引"^ , 中.
"CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, I^H为网络设备配置的参数; Calculate and obtain the source index "^" of the PUCCH corresponding to the first antenna port. "CCE is the sequence number of the first control channel element CCE of the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier or the first sequence number of the PDCCH of the released downlink SPS The serial number of a CCE, I^H is the parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2) If the network device uses two antennas, according to formula (2)
^PUCCH = nCCE + 1 + ^PUCCH 2) ^PUCCH = n CCE + 1 + ^PUCCH 2)
计算获取对应于第二天线端口的所述 PUCCH的资源索引"^ H。 Calculate and obtain the resource index "^H of the PUCCH corresponding to the second antenna port.
66、 根据权利要求 60或 61所述的网络设备, 其特征在于, 所述处理器, 具体用于假设所述 UE在所述第一下行载波上检测到所述第二类下行数据, 确定所述 UE在所述第一上行载波或所述第二上行载波上用于反馈所述第二 类下行数据的检测结果的所述 PUCCH资源; 66. The network device according to claim 60 or 61, wherein the processor is specifically configured to assume that the UE detects the second type of downlink data on the first downlink carrier, and determines The PUCCH resource used by the UE to feed back the detection result of the second type of downlink data on the first uplink carrier or the second uplink carrier;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引^ 和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ¾¾H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier or the first antenna port of the first antenna port according to the information of the TPC command field in the PDCCH indicating the activation of the downlink SPS. The resource index of the PUCCH of the second uplink carrier and the resource index of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port.
67、根据权利要求 60~61、 65-66中任一项所述的网络设备,其特征在于, 所述处理器, 具体用于假设所述 UE在所述第二下行载波上检测到所述第一 类下行数据,根据所述下行数据的所述 PDCCH使用的资源确定所述 UE发送 所述 HARQ-ACK反馈信息的所述 PUCCH资源; 67. The network device according to any one of claims 60 to 61 and 65 to 66, characterized in that, the processor is specifically configured to assume that the UE detects the second downlink carrier on the second downlink carrier. For the first type of downlink data, the PUCCH resource used by the UE to send the HARQ-ACK feedback information is determined according to the resource used by the PDCCH of the downlink data;
根据公式 (1 ) According to formula (1)
" „PΠU.¾CC)H =„ "CCE + """" NPmUCCH f,\、) " „PΠU.¾CC)H =„ "CCE + """" NP m UCCH f ,\,)
计算获取对应于第一天线端口的所述 PUCCH的资源索引" H, 其中, "CCE为在所述第一下行载波或所述第二下行载波上, 调度的所述 PDSCH的所 述 PDCCH 的第一个控制信道元素 CCE 的序号或者所述释放下行 SPS 的 PDCCH的第一个 CCE的序号, w CCH为网络设备配置的参数; Calculate and obtain the resource index "H" of the PUCCH corresponding to the first antenna port, where "CCE is the PDCCH of the PDSCH scheduled on the first downlink carrier or the second downlink carrier. The sequence number of the first control channel element CCE or the sequence number of the first CCE of the PDCCH that releases the downlink SPS, w CCH is a parameter configured by the network device;
若网络设备使用两个天线时, 根据公式 (2) If the network device uses two antennas, according to formula (2)
^PUCCH = WCCE + 1 + -^PUCCH 2) ^PUCCH = W CCE + 1 + -^PUCCH 2)
计算获取对应于第二天线端口的所述 PUCCH的资源索引" 。 Calculate and obtain the resource index of the PUCCH corresponding to the second antenna port.
68、根据权利要求 60~61、 65-66中任一项所述的网络设备,其特征在于, 所沭々卜理 ¾. 县休用千假设所沭 111^ #所沭筮二下行载 卜 涮到所沭笾二
类下行数据, 确定所述 UE在所述第一上行载波或所述第二上行载波上用于 反馈所述第二类下行数据的检测结果的所述 PUCCH资源; 68. The network device according to any one of claims 60 to 61 and 65 to 66, characterized in that: Boil it until it reaches the end of the water Class downlink data, determine the PUCCH resource used by the UE to feed back the detection result of the second class downlink data on the first uplink carrier or the second uplink carrier;
根据最近的一个指示所述下行 SPS激活的 PDCCH中的所述 TPC命令字 段的信息确定所述 UE发送所述 HARQ-ACK反馈信息对应于第一天线端口的 所述第一上行载波或所述第二上行载波的所述 PUCCH的资源索引 "^ H和对 应于第二天线端口的所述第一上行载波或所述第二上行载波的所述 PUCCH 的资源索引" ^ H。 Determine that the UE sends the HARQ-ACK feedback information corresponding to the first uplink carrier or the first antenna port of the first antenna port according to the information of the TPC command field in the PDCCH indicating the activation of the downlink SPS. The resource index "^H" of the PUCCH of the second uplink carrier and the resource index "^ H " of the PUCCH of the first uplink carrier or the second uplink carrier corresponding to the second antenna port.
69、 根据权利要求 58~68中任一项所述的网络设备, 其特征在于, 所述 处理器, 还用于在所述第一下行载波上的所述下行数据中的所述 PDCCH 中 的所述 TPC命令字段的信息中携带所述 UE在所述第一上行载波上发送所述 HARQ-ACK反馈信息的所述 PUCCH的功控信息; 69. The network device according to any one of claims 58 to 68, characterized in that the processor is also used in the PDCCH in the downlink data on the first downlink carrier. The information in the TPC command field carries the power control information of the PUCCH used by the UE to send the HARQ-ACK feedback information on the first uplink carrier;
在所述第二下行载波上的所述下行数据中的所述 PDCCH中的所述 TPC 命令字段的信息中携带所述 UE在所述第二上行载波上发送所述 HARQ-ACK 反馈信息的所述 PUCCH的功控信息。 The information of the TPC command field in the PDCCH in the downlink data on the second downlink carrier carries the information that the UE sends the HARQ-ACK feedback information on the second uplink carrier. Describes the power control information of PUCCH.
70、 一种上行控制信道传输系统, 其特征在于, 包括: 用户设备 UE和 网络设备, 所述 UE采用权利要求 24~34中任一项所述的 UE, 所述网络设备 采用权利要求 35~46中任一项所述的网络设备。 70. An uplink control channel transmission system, characterized in that it includes: user equipment UE and network equipment, the UE adopts the UE described in any one of claims 24 to 34, and the network equipment adopts claims 35 to The network equipment described in any one of 46.
71、 一种上行控制信道传输系统, 其特征在于, 包括: 用户设备 UE和 网络设备, 所述 UE采用权利要求 47~57中任一项所述的 UE, 所述网络设备 采用权利要求 58~69中任一项所述的网络设备。
71. An uplink control channel transmission system, characterized in that it includes: user equipment UE and network equipment, the UE adopts the UE described in any one of claims 47 to 57, and the network equipment adopts claims 58 to The network equipment described in any one of 69.
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EP3681067B1 (en) * | 2010-11-02 | 2021-09-08 | Lg Electronics Inc. | Method and device for transmitting uplink control information in wireless communication system |
US20120113827A1 (en) * | 2010-11-08 | 2012-05-10 | Sharp Laboratories Of America, Inc. | Dynamic simultaneous pucch and pusch switching for lte-a |
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CN101795492A (en) * | 2010-01-15 | 2010-08-04 | 中兴通讯股份有限公司 | Method for determining physical uplink control channel resources in multi-carrier system |
US20120269179A1 (en) * | 2011-04-22 | 2012-10-25 | Samsung Electronics Co. Ltd. | Method and apparatus for transmitting acknowledgement/nonacknowledgement signals in a wireless communication system |
CN103001750A (en) * | 2011-09-16 | 2013-03-27 | 北京三星通信技术研究有限公司 | Method for transmitting HARQ-ACK (hybrid automatic retransmission request-acknowledgment) information |
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CN105230095B (en) | 2020-01-10 |
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