WO2017133445A1 - Method and device for transmitting uplink control information - Google Patents
Method and device for transmitting uplink control information Download PDFInfo
- Publication number
- WO2017133445A1 WO2017133445A1 PCT/CN2017/071429 CN2017071429W WO2017133445A1 WO 2017133445 A1 WO2017133445 A1 WO 2017133445A1 CN 2017071429 W CN2017071429 W CN 2017071429W WO 2017133445 A1 WO2017133445 A1 WO 2017133445A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- carrier
- pucch
- terminal
- actual transmission
- uplink control
- Prior art date
Links
Images
Classifications
-
- 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
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
Definitions
- the present invention relates to the field of wireless communication technologies, and in particular, to a method and device for transmitting uplink control information.
- LAA Licensed Assisted Access
- the unlicensed spectrum does not have a specific application system, and can be shared by various wireless communication systems such as Bluetooth, WiFi, etc., and the shared unlicensed spectrum resources are used by multiple systems by preempting resources.
- an LBT (Listen Before Talk) mechanism is required before transmission on the unlicensed frequency band.
- the LBT process is a CCA (clear channel assessment) performed by the device before using the channel for transmission. It is determined by energy detection whether other signals exist on the channel to determine whether the channel is occupied or idle. Idle for data transfer.
- the terminal may receive data on many unlicensed carriers at the same time. If only the uplink control channel is supported on the authorized carrier, the uplink control channel overhead on the authorized carrier is too large, so it needs to be considered.
- the uplink control channel is transmitted on the unlicensed carrier. However, the resources on the unlicensed carrier are used by multiple systems. The terminal must first enter the LBT before the uplink transmission. The terminal cannot access the channel at any time. If the terminal does not preempt the transmission of the uplink control channel. On the channel, the uplink control information cannot be transmitted correctly in time.
- the terminal transmits the uplink control channel on the unlicensed carrier, the terminal cannot access the channel at any time, and the uplink control information cannot be correctly transmitted in time.
- the present invention provides a method and a device for transmitting uplink control information, which are used to solve the problem that the current terminal existing in the prior art can transmit an uplink control channel on an unlicensed carrier, and cannot ensure that the terminal can access the channel at any time. This may cause the uplink control information to be incorrectly transmitted in time.
- the terminal performs LBT detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- the terminal determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier.
- the terminal after performing the LBT detection on the PUCCH transmission carrier, the terminal further includes:
- the terminal uses the PUCCH transmission carrier as a PUCCH actual transmission carrier.
- the PUCCH actual transmission carrier is an unlicensed carrier that is successfully detected by the LBT
- the PUCCH actual transmission carrier is a carrier that meets a predetermined rule selected from the group of switching carriers, where the switching carrier group includes The PUCCH transmits a carrier and at least one other unlicensed carrier.
- the predetermined rule is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest
- the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
- the terminal uses the authorized carrier as the PUCCH actual transmission carrier.
- the terminal determines, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
- the terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
- the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein, the authorized carrier is used.
- the PUCCH resource for transmitting the unlicensed carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the terminal determines, by using part or all of the following manners, all PUCCH resources on the PUCCH actual transmission carrier:
- the terminal determines, by using predefined configuration information, all PUCCH resources on the PUCCH actual transmission carrier.
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH transmission simultaneously, the terminal transmits uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
- the network side device performs DTX detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- the network side device determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
- the network side device actually transmits the uplink control information of the carrier through the PUCCH.
- the method before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
- the network side device configures a PUCCH transmission carrier for the terminal.
- the network side device after performing the DTX detection on the PUCCH transmission carrier, the network side device further includes:
- the network side device uses the PUCCH transmission carrier as the PUCCH actual transmission carrier.
- the network side device determines the PUCCH actual transmission carrier, including:
- the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
- the network side device uses the unlicensed carrier that is successfully detected by the DTX as the actual transmission carrier of the PUCCH;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the network side device determines the actual transmission carrier of the PUCCH, and further includes:
- the network side device actually transmits the authorized carrier as the PUCCH. Carrier.
- the method further includes:
- the network side device indicates, by using high layer signaling or physical layer signaling, whether the terminal currently supports PUCCH handover to grant Weight carrier.
- the method before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
- the network side device configures a switching carrier group for the terminal.
- the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, including:
- the network side device reserves, by using the unlicensed carrier in the handover carrier group, a PUCCH resource for transmitting uplink control information, and the receiving terminal Uplink control information;
- the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting the uplink control information of the unlicensed carrier handover for the terminal, where the authorized carrier is used for transmitting the non-transmission
- the PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the PUCCH resource is a non-predefined resource
- the network side device Before the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, the network side device further includes:
- the network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- a terminal for transmitting uplink control information is provided by the embodiment of the present invention, where the terminal includes:
- a first detecting module configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- a first processing module configured to determine, if the LBT detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
- a transmission module configured to transmit uplink control information by using a PUCCH actual transmission carrier.
- the first processing module is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the first processing module is specifically configured to:
- the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the predetermined rule is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest
- the first processing module is further configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- the first processing module determines whether the PUCCH is currently switched to the authorized carrier by using the following manner:
- Whether the PUCCH handover to the authorized carrier is currently supported is determined by the indication information included in the high layer signaling or the physical layer signaling.
- the transmission module is specifically configured to:
- the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission
- the PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the transmitting module determines all PUCCH resources on the PUCCH actual transmission carrier by using part or all of the following manners:
- All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
- the transmitting module transmits uplink control information by using a PUCCH actual transmission carrier, specifically:
- the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier;
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support simultaneous transmission of the PUCCH and the PUSCH, the terminal transmits the uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- the uplink control information that is transmitted by using the PUCCH to actually transmit the carrier includes uplink control information of all carriers in the carrier group to which the actual transmission carrier of the PUCCH belongs.
- a network side device for transmitting uplink control information is provided by the embodiment of the present invention, where the network side device includes:
- a second detecting module configured to perform DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- a second processing module configured to determine a PUCCH actual transmission carrier if the DTX detection fails, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
- the receiving module is configured to actually transmit uplink control information of the carrier through the PUCCH.
- the second processing module is further configured to:
- a PUCCH transmission carrier is configured for the terminal.
- the second processing module is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the second processing module is specifically configured to:
- the unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the second processing module is further configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- the second processing module is further configured to:
- Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
- the second processing module is further configured to:
- a switching carrier group is configured for the terminal.
- the receiving module is specifically configured to:
- the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
- the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched.
- the PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
- the PUCCH resource is a non-predefined resource
- the second processing module is further configured to:
- the PUCCH resource on the PUCCH actual transmission carrier of the terminal notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
- a processor for reading a program in the memory performing the following process:
- the PUCCH transmission carrier is an unlicensed carrier
- the actual transmission carrier of the PUCCH is determined, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT; and the uplink control information is transmitted by using the transceiver to actually transmit the carrier through the PUCCH;
- a transceiver for receiving and transmitting data under the control of a processor.
- a processor for reading a program in the memory performing the following process:
- a transceiver for receiving and transmitting data under the control of a processor.
- the terminal may determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the actual transmission carrier of the PUCCH is the authorized carrier or the LBT detection succeeds.
- Authorized carrier In the embodiment of the present invention, the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched.
- the information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system performance.
- FIG. 1 is a schematic structural diagram of a system for transmitting uplink control information according to an embodiment of the present invention
- FIG. 2 is a schematic structural diagram of a first terminal according to an embodiment of the present invention.
- FIG. 3 is a schematic structural diagram of a first network side device according to an embodiment of the present invention.
- FIG. 4 is a schematic structural diagram of a second terminal according to an embodiment of the present invention.
- FIG. 5 is a schematic structural diagram of a second network side device according to an embodiment of the present invention.
- FIG. 6 is a schematic flowchart of a method for transmitting uplink control information on a terminal side according to an embodiment of the present invention
- FIG. 7 is a schematic flowchart of a method for transmitting uplink control information on a network side according to an embodiment of the present invention.
- the terminal may determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the PUCCH is actually The transmission carrier is an authorized carrier or an unlicensed carrier that the LBT detects successfully.
- the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched.
- the information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system.
- the embodiment of the present invention can be applied to a scenario in which a terminal aggregates one authorized carrier and at least one unlicensed carrier.
- the system for transmitting uplink control information in the embodiment of the present invention includes: a terminal 10 and a network side device 20.
- the terminal 10 is configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the LBT detection fails, determine a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an LBT detection. A successful unlicensed carrier; the uplink control information is transmitted through the actual transmission carrier of the PUCCH.
- the network side device 20 is configured to perform DTX (Discontinuous Transmission) detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the DTX detection fails, determine the PUCCH actual transmission carrier, where the The actual transmission carrier of the PUCCH is an unlicensed carrier whose authorized carrier or DTX is successfully detected; the uplink control information of the carrier receiving terminal is actually transmitted through the PUCCH.
- DTX Continuous Transmission
- the terminal may use the authorized carrier or the unlicensed carrier that is successfully detected by the LBT to transmit the uplink control information as the actual transmission carrier of the PUCCH.
- the network side device may receive the uplink control information as the PUCCH actual transmission carrier by using the authorized carrier or one other unlicensed carrier that is successfully detected by the DTX.
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier to transmit uplink control information
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier to receive uplink control information.
- the switching carrier group may be configured for the terminal, or the switching carrier group may not be configured for the terminal.
- Case 1 The switch carrier group is not configured for the terminal.
- the network side device may configure a PUCCH transmission carrier for the terminal
- the terminal determines the PUCCH transmission carrier according to the configuration of the network side device.
- the terminal uses the authorized carrier as the actual transmission carrier of the PUCCH;
- the network side device uses the authorized carrier as the PUCCH actual transmission carrier.
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier
- the terminal if the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH (Physical Uplink Shared Channel, The physical uplink shared channel is transmitted simultaneously, and the terminal transmits the uplink control information by using the PUCCH on the actual transmission carrier of the PUCCH; or
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- a carrier group may be divided for all carriers, where the carrier group is different from the switching carrier group.
- a carrier group including a primary carrier is referred to as a primary carrier group
- a carrier group not including a primary carrier is referred to as a second carrier group
- an actual transmission carrier of the PUCCH belongs to a second carrier group
- uplink control information transmitted on the actual transmission carrier of the PUCCH may include Uplink control information of all carriers in the two carrier groups.
- the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the second carrier group to which the PUCCH actual transmission carrier belongs;
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier.
- the second carrier group includes carrier 1, carrier 2, and carrier 3.
- carrier 1 is a PUCCH actual transmission carrier
- the uplink control information transmitted on carrier 1 may include part or all of carrier 1, carrier 2, and carrier 3. Uplink control information of the carrier.
- the PUCCH resource indication manners on the PUCCH actual transmission carrier are different, and are respectively introduced below.
- Manner 1 If the actual transmission carrier of the PUCCH is a PUCCH transmission carrier, the terminal transmits uplink control information by using a PUCCH resource on the actual transmission carrier of the PUCCH;
- the network side device reserves the PUCCH resource for transmitting the uplink control information for the terminal by using the unlicensed carrier in the switching carrier group, and receives the uplink control information of the terminal.
- the PUCCH resource has a PUCCH resource, and the PUCCH resource is used to transmit uplink control information.
- the number of resources can be set as needed, such as one.
- the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
- the network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
- the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
- the network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
- the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH;
- the PUCCH resource for transmitting the unlicensed carrier on the carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting, by the terminal, uplink control information for unlicensed carrier handover.
- the PUCCH resource is available on the authorized carrier.
- the PUCCH resource may be of two types or one type. If there are two types, one is a PUCCH resource for transmitting uplink control information of an unlicensed carrier handover, and the other is a PUCCH resource for transmitting uplink control information of an authorized carrier;
- the PUCCH resource can transmit the uplink control information of the unlicensed carrier handover, the uplink control information of the authorized carrier can also be transmitted. Therefore, it is possible to transmit the two uplink control signals at the same time, so the PUCCH resource can be relatively large.
- the base station may instruct other terminals to use the resource after confirming that the terminal preempts the channel.
- the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
- the network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
- the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
- the network side device notifies, by using the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal;
- the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
- Case 2 Configure a switching carrier group for the terminal.
- the handover carrier group herein includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the network side device may configure a switching carrier group for the terminal
- the terminal determines the switching carrier group according to the configuration of the network side device.
- the terminal selects an unlicensed carrier that satisfies a predetermined rule from the switching carrier group and the LBT detection succeeds as the PUCCH actual transmission carrier.
- the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group; the unlicensed carrier that successfully detects the DTX is used as the PUCCH actual transmission carrier.
- DTX detection is performed on each of the remaining N-1 unlicensed carriers.
- the predetermined rule in the embodiment of the present invention is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest, for example, the smallest carrier number of the M unlicensed carriers is selected as the actual PUCCH carrier;
- the terminal uses the authorized carrier as the actual PUCCH.
- Transmission carrier
- the network side device uses the authorized carrier as The PUCCH actually transmits the carrier.
- the terminal If the PUCCH switching carrier group does not include the authorized carrier or does not support the PUCCH handover to the authorized carrier, the terminal considers that the LBT fails and does not transmit the uplink control information;
- the network side device considers that the terminal does not transmit the uplink control channel, and does not need to receive the uplink control channel in the current subframe.
- the PUCCH handover carrier group includes the licensed carrier and supports the PUCCH handover to the authorized carrier, it is determined that the authorized carrier is the PUCCH actual transmission payload.
- the embodiment of the present invention may further specify that only one authorized carrier is included in one of the switching carrier groups. Of course, more than one can.
- the network side device indicates, by using the high layer signaling or the physical layer signaling, whether the terminal currently supports the PUCCH handover to the authorized carrier, for example, by using 1 bit in the downlink scheduling signaling;
- the terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
- the PUCCH actual transmission carrier is the PUCCH transmission carrier and the PUCCH actual transmission carrier is the authorized carrier
- the PUCCH resources on the PUCCH actual transmission carrier are different, and are respectively introduced below.
- Manner 1 If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the network side device reserves the PUCCH resource for transmitting the uplink control information for the terminal by using the unlicensed carrier in the switching carrier group, and receives the uplink control information of the terminal.
- the PUCCH resource has a PUCCH resource, and the PUCCH resource is used to transmit uplink control information.
- the number of resources can be set as needed, such as one.
- the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
- the network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
- the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
- the network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
- the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH;
- the PUCCH resource for transmitting the unlicensed carrier on the carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting, by the terminal, uplink control information for unlicensed carrier handover.
- the PUCCH resource is available on the authorized carrier.
- the PUCCH resource may be of two types or one type. If there are two types, one is a PUCCH resource for transmitting uplink control information for unlicensed carrier switching, and the other is a PUCCH resource for transmitting uplink control information of an authorized carrier;
- the PUCCH resource can transmit the uplink control information of the unlicensed carrier handover, and the uplink control information of the authorized carrier can also be transmitted, it is possible to transmit the two uplink control signals at the same time, so the PUCCH resource can be relatively large.
- the base station may instruct other terminals to use the resource after confirming that the terminal preempts the channel.
- the base station can determine whether the uplink control signal transmitted by the unlicensed carrier is transmitted on the PUCCH resource, or the uplink control information of the authorized carrier is transmitted, or both are transmitted.
- the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
- the network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
- the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
- the network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
- the network side device in the embodiment of the present invention may be a base station (such as a macro base station, a home base station, etc.), and may also be other network side devices.
- a terminal in the embodiment of the present invention may also be referred to as a UE (user equipment), such as a terminal that can connect to a network side device, such as a pad or a mobile phone.
- UE user equipment
- the terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers.
- Carriers 1 to 5 are carrier group A
- carriers 6 to 10 are carrier group B
- carrier 1 is a primary carrier in carrier group A
- carrier 6 is a primary carrier in carrier group B.
- the base station configures the carrier 6 as the PUCCH transmission carrier, and the terminal needs to perform uplink control information feedback for the carrier 6 and the carrier 10.
- the specific implementation process is described according to the following different situations:
- Case 1 The terminal performs LBT detection on the carrier 6, and the LBT detection result on the carrier 6 is that the carrier is idle, and the PUCCH on the carrier 6 transmits the uplink control information of the carrier 6 and the carrier 10;
- the base station performs DTX detection on the carrier 6, and receives uplink control information after detecting the PUCCH transmission.
- Case 2 The terminal performs LBT detection on the carrier 6, and the LBT detection result on the carrier 6 is that the carrier is busy, and the PUCCH on the carrier 1 transmits the uplink control information of the carrier 6 and the carrier 10;
- the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carrier 1, and receives the uplink control information after detecting the PUCCH transmission.
- Case 3 The terminal does not support simultaneous transmission of PUCCH and PUSCH.
- the terminal performs LBT detection on the carrier 6, the LBT detection result on the carrier 6 is that the carrier is busy, and the base station schedules uplink data transmission on the carrier 1, and the terminal controls the uplink control information of the carrier 6 and the carrier 10 on the carrier 1 ;
- the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then receives the uplink control information in the PUSCH on the carrier 1.
- the terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers.
- Carriers 1 to 5 are carrier group A
- carriers 6 to 10 are carrier group B
- carrier 1 is a primary carrier in carrier group A
- carrier 6 is a primary carrier in carrier group B.
- the base station configures the carrier 6 as a PUCCH transmission carrier, and configures the carriers 6 to 10 as a handover carrier group.
- the terminal needs to perform uplink control information feedback for carrier 6 and carrier 10, and performs the following process:
- Case 1 The terminal performs LBT detection on carriers 6-10, and the LBT detection result on carrier 6 is carrier idle, then PUCCH is transmitted on carrier 6.
- the base station performs DTX detection on the carrier 6, and receives uplink control information after detecting the PUCCH transmission.
- Case 2 The terminal performs LBT detection on carriers 6 to 10.
- the LBT detection result on carrier 6 and carrier 8 is carrier busy, and the LBT detection result on carrier 7, carrier 9 and carrier 10 is carrier idle, and the terminal is based on carrier. Selecting a PUCCH transmission carrier, and selecting to transmit a PUCCH on the carrier 7 with successful LBT detection and the smallest carrier number;
- the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carriers 7-10 according to the carrier sequence, and receives the uplink control information after detecting the PUCCH transmission on the carrier 7.
- Case 3 The terminal selects a PUCCH transmission carrier according to the scheduling information and the carrier sequence number. Since only the uplink control information needs to be transmitted for the carrier 6 and the carrier 10, the PUCCH is selected to be transmitted on the carrier 10 with the LBT detection success and the uplink control information feedback.
- the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carrier 10 on which the terminal needs to perform uplink control information feedback, and receives uplink control information after detecting the PUCCH transmission on the carrier 10.
- Case 4 The terminal selects a PUCCH transmission carrier according to the interference information, and the terminal detects that the interference on the carrier 7 and the carrier 10 is large, and the interference on the carrier 9 is small, then the PUCCH is selected to be transmitted on the carrier 9;
- the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carriers 7-10 according to the carrier sequence, and receives the uplink control after detecting the PUCCH transmission on the carrier 9. Information.
- the terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers.
- Carriers 1 to 5 are carrier group A
- carriers 6 to 10 are carrier group B
- carrier 1 is a primary carrier in carrier group A
- carrier 6 is a primary carrier in carrier group B.
- the base station configures the carrier 6 as a PUCCH transmission carrier, and configures the carriers 6 to 10 as a PUCCH switching carrier group.
- the terminal needs to perform uplink control information feedback for carrier 1 and carrier 2/6 and carrier 10, and performs the following process:
- Case 1 The terminal feeds back the uplink control information of carrier 1 and carrier 2 on carrier 1, and performs LBT detection on carriers 6 to 10.
- the LBT detection result on carriers 6 to 10 is carrier busy, and the carrier is also transmitted on carrier 1.
- the uplink control information of carrier 1 and carrier 2 and the uplink control information of carrier 6 and carrier 10 use the same PUCCH.
- the base station first performs DTX detection on carriers 6-10, and does not detect PUCCH transmission, and then uses two length bits on carrier 1 to decode PUCCH, and the first length corresponds to only feedback carrier 1 and carrier 2 Uplink control information, the second length corresponds to the uplink control information of carrier 1 and carrier 2/6 and carrier 10, and if the base station successfully decodes using the first type, the terminal only feeds back uplink control of carrier 1 and carrier 2.
- the information if the second length decoding is successful, indicates that the terminal simultaneously feeds back uplink control information of carrier 1 and carrier 2/6 and carrier 10.
- Case 2 The terminal feeds back the uplink control information of carrier 1 and carrier 2 on carrier 1, and performs LBT detection on carriers 6 to 10.
- the LBT detection result on carriers 6 to 10 is carrier busy, and the carrier is also transmitted on carrier 1.
- the uplink control information of carrier 1 and carrier 2 and the uplink control information of carrier 6 and carrier 10 use different PUCCH resources.
- the base station first performs DTX detection on carriers 6-10, and does not detect PUCCH transmission, and then performs DTX detection on two PUCCH resources on carrier 1, the first PUCCH resource corresponding to carrier 1 and carrier 2.
- the second PUCCH resource corresponds to the uplink control information of the carrier 6 and the carrier 10.
- the base station receives the corresponding uplink control information after detecting the PUCCH transmission.
- the first terminal of the embodiment of the present invention includes:
- the first detecting module 200 is configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- the first processing module 201 is configured to determine, if the LBT detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
- a transmission module configured to transmit uplink control information by using a PUCCH actual transmission carrier.
- the first processing module 201 is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the first processing module 201 is further configured to:
- the licensed carrier is used as the actual transmission carrier of the PUCCH.
- the first processing module 201 is specifically configured to:
- the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the predetermined rule is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest
- the first processing module 201 is specifically configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- the first processing module 201 is specifically configured to determine, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
- Whether the PUCCH handover to the authorized carrier is currently supported is determined by the indication information included in the high layer signaling or the physical layer signaling.
- the transmission module 202 is specifically configured to:
- the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission
- the PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the transmission module 202 is specifically configured to:
- All PUCCH resources on the actual transmission carrier of the PUCCH are determined by some or all of the following ways:
- All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
- the transmission module 202 is specifically configured to:
- the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier;
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support PUCCH Simultaneously transmitting with the PUSCH, the terminal transmits uplink control information through the PUSCH on the actual transmission carrier of the PUCCH.
- the uplink control information that is transmitted by the transmission module 202 through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
- the first network side device in the embodiment of the present invention includes:
- a second detecting module 300 configured to perform DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
- the second processing module 301 is configured to determine, if the DTX detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by DTX;
- the receiving module 302 is configured to actually transmit uplink control information of the carrier through the PUCCH.
- the second processing module 301 is further configured to:
- a PUCCH transmission carrier is configured for the terminal.
- the second processing module 301 is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the second processing module 301 is specifically configured to:
- the licensed carrier is used as the actual transmission carrier of the PUCCH.
- the second processing module 301 is specifically configured to:
- the unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the second processing module 301 is specifically configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- the second processing module 301 is further configured to:
- Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
- the second processing module 301 is specifically configured to:
- a switching carrier group is configured for the terminal.
- the receiving module 302 is specifically configured to:
- the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
- the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched.
- the PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
- the PUCCH resource is a non-predefined resource
- the second processing module 301 is further configured to:
- the PUCCH resource on the PUCCH actual transmission carrier of the terminal notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
- a second terminal in the embodiment of the present invention includes:
- the processor 401 is configured to read a program in the memory 404 and perform the following process:
- the uplink control information is transmitted through the PUCCH actual transmission carrier.
- the transceiver 402 is configured to receive and transmit data under the control of the processor 401.
- the processor 401 is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the processor 401 is further configured to:
- the licensed carrier is used as the actual transmission carrier of the PUCCH.
- the processor 401 is specifically configured to:
- the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the predetermined rule is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest
- the processor 401 is specifically configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- the processor 401 is specifically configured to determine, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
- the processor 401 is specifically configured to:
- the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission
- the PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the processor 401 is specifically configured to:
- All PUCCH resources on the actual transmission carrier of the PUCCH are determined by some or all of the following ways:
- All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
- the processor 401 is specifically configured to:
- the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier;
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support simultaneous transmission of the PUCCH and the PUSCH, the terminal transmits the uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- the uplink control information that is sent by the processor 401 by using the PUCCH to actually transmit the carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
- a bus architecture (represented by bus 400), which may include any number of interconnected buses and bridges, will include one or more processors and memory 404 represented by general purpose processor 401.
- the various circuits of the memory are linked together.
- the bus 400 can also link various other circuits, such as peripherals, voltage regulators, and power management circuits, as is known in the art and, therefore, will not be further described herein.
- Bus interface 403 provides an interface between bus 400 and transceiver 402.
- Transceiver 402 can be an element or a plurality of elements, such as a plurality of receivers and transmitters, providing means for communicating with various other devices on a transmission medium.
- transceiver 402 receives external data from other devices.
- the transceiver 402 is configured to send the processed data of the processor 401 to other devices.
- a user interface 405 can also be provided, such as a keypad, display, speaker, microphone, joystick.
- the processor 401 is responsible for managing the bus 400 and the usual processing, running a general purpose operating system as described above.
- the memory 404 can be used to store data used by the processor 401 in performing operations.
- the processor 401 may be a CPU (Central Embedded Device), an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a CPLD (Complex Programmable Logic Device). , complex programmable logic devices).
- CPU Central Embedded Device
- ASIC Application Specific Integrated Circuit
- FPGA Field-Programmable Gate Array
- CPLD Complex Programmable Logic Device
- the second network side device of the embodiment of the present invention includes:
- the processor 501 is configured to read a program in the memory 504 and perform the following process:
- the transceiver 502 is configured to receive and transmit data under the control of the processor 501.
- processor 501 is further configured to:
- a PUCCH transmission carrier is configured for the terminal.
- processor 501 is further configured to:
- the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- the processor 501 is specifically configured to:
- the licensed carrier is used as the actual transmission carrier of the PUCCH.
- the processor 501 is specifically configured to:
- the unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the processor 501 is specifically configured to:
- the authorized carrier is used as the PUCCH actual transmission carrier.
- processor 501 is further configured to:
- Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
- the processor 501 is specifically configured to:
- a switching carrier group is configured for the terminal.
- the processor 501 is specifically configured to:
- the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
- the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched.
- the PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
- the PUCCH resource is a non-predefined resource
- the processor 501 is further configured to:
- the PUCCH resource on the PUCCH actual transmission carrier of the terminal notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
- bus 500 can include any number of interconnected buses and bridges, and bus 500 will include one or more processors represented by processor 501 and memory represented by memory 504. The various circuits are linked together. The bus 500 can also link various other circuits, such as peripherals, voltage regulators, and power management circuits, as is known in the art, and therefore, will not be further described herein.
- Bus interface 503 provides an interface between bus 500 and transceiver 502. Transceiver 502 can be an element or a plurality of elements, such as multiple receivers and transmitters, providing means for communicating with various other devices on a transmission medium. Data processed by processor 501 is transmitted over wireless medium via antenna 505. Further, antenna 505 also receives the data and transmits the data to processor 501.
- the processor 501 is responsible for managing the bus 500 and the usual processing, and can also provide various functions including timing, peripheral interfaces, voltage regulation, power management, and other control functions.
- the memory 504 can be used to store data used by the processor 501 when performing operations.
- the processor 501 can be a CPU, an ASIC, an FPGA, or a CPLD.
- the embodiment of the present invention further provides a method for transmitting uplink control information by a terminal, where the device corresponding to the method is a terminal in a system for transmitting uplink control information according to an embodiment of the present invention, and the method solves the problem.
- the principle is similar to the system, so the implementation of the method can be referred to the implementation of the system, and the repeated description will not be repeated.
- the method for transmitting uplink control information on the terminal side of the embodiment of the present invention includes:
- Step 600 The terminal performs LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier.
- Step 601 If the LBT detection fails, the terminal determines the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier with successful LBT detection;
- Step 602 The terminal transmits uplink control information by using a PUCCH actual transmission carrier.
- the terminal after performing the LBT detection on the PUCCH transmission carrier, the terminal further includes:
- the terminal uses the PUCCH transmission carrier as a PUCCH actual transmission carrier.
- the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
- the terminal uses the licensed carrier as the actual transmission carrier of the PUCCH.
- the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
- the terminal selects an unlicensed carrier that satisfies a predetermined rule from the switching carrier group and the LBT detection succeeds as the PUCCH actual transmission carrier;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the predetermined rule is one of the following rules:
- the carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest
- the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
- the terminal uses the authorized carrier as the PUCCH actual transmission carrier.
- the terminal determines, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
- the terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
- the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
- the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein, the authorized carrier is used.
- the PUCCH resource for transmitting the unlicensed carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the terminal determines, by using part or all of the following manners, all PUCCH resources on the PUCCH actual transmission carrier:
- the terminal determines, by using predefined configuration information, all PUCCH resources on the PUCCH actual transmission carrier.
- the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH transmission simultaneously, the terminal transmits the PUCCH on the carrier through the PUCCH actual transmission.
- the terminal If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
- the embodiment of the present invention further provides a method for transmitting uplink control information on the network side, where the device corresponding to the method is a network side device in a system for transmitting uplink control information according to an embodiment of the present invention, and the method
- the device corresponding to the method is a network side device in a system for transmitting uplink control information according to an embodiment of the present invention, and the method
- the principle of solving the problem is similar to that of the system, so the implementation of the method can be referred to the implementation of the system, and the repeated description will not be repeated.
- the method for transmitting uplink control information on the network side of the embodiment of the present invention includes:
- Step 700 The network side device performs DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier.
- Step 701 If the DTX detection fails, the network side device determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
- Step 702 The network side device actually transmits uplink control information of the carrier through the PUCCH.
- the method before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
- the network side device configures a PUCCH transmission carrier for the terminal.
- the network side device after performing the DTX detection on the PUCCH transmission carrier, the network side device further includes:
- the network side device uses the PUCCH transmission carrier as the PUCCH actual transmission carrier.
- the network side device determines the PUCCH actual transmission carrier, including:
- the network side device uses the authorized carrier as the PUCCH actual transmission carrier.
- the network side device determines the PUCCH actual transmission carrier, including:
- the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
- the network side device uses the unlicensed carrier that is successfully detected by the DTX as the actual transmission carrier of the PUCCH;
- the switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- the network side device determines the PUCCH actual transmission carrier, including:
- the network side device actually transmits the authorized carrier as the PUCCH. Carrier.
- the method further includes:
- the network side device indicates, by using high layer signaling or physical layer signaling, whether the terminal currently supports PUCCH handover to the authorized carrier.
- the method before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
- the network side device configures a switching carrier group for the terminal.
- the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, including:
- the network side device reserves, by using the unlicensed carrier in the handover carrier group, a PUCCH resource for transmitting uplink control information, and the receiving terminal Uplink control information;
- the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting the uplink control information of the unlicensed carrier handover for the terminal, where the authorized carrier is used for transmitting the non-transmission
- the PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- the PUCCH resource is a non-predefined resource
- the network side device Before the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, the network side device further includes:
- the network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- the terminal can determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the actual transmission carrier of the PUCCH is an authorized carrier or The LBT detects a successful unlicensed carrier.
- the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched.
- the information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system.
- the application can also be implemented in hardware and/or software (including firmware, resident software, microcode, etc.). Still further, the application can take the form of a computer program product on a computer usable or computer readable storage medium.
- a computer-usable or computer readable program code embodied in a medium for use by or in connection with an instruction execution system.
- a computer usable or computer readable medium can be any medium that can contain, store, communicate, communicate, or transport a program for use by an instruction execution system, apparatus or device, or in conjunction with an instruction execution system, Used by the device or device.
Landscapes
- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Computer Networks & Wireless Communication (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The present invention relates to the technical field of wireless communications, and especially relates to a method and device for transmitting uplink control information, so as to solve the problem existing in the art that if a terminal transmits an uplink control information on an unlicensed carrier currently, it cannot be ensured that the terminal can access a channel at any time, which may cause the fact that the uplink control information cannot be correctly transmitted in time. In the embodiments of the present invention, after LBT detection on a PUCCH transmission carrier has failed, a terminal can switch to other unlicensed carriers or licensed carriers on which LBT detection is successful, to transmit uplink control information, thereby avoiding the situation that uplink control information cannot be correctly transmitted in time due to not occupying a channel.
Description
本申请要求在2016年2月2日提交中国专利局、申请号为201610073606.7、发明名称为“一种传输上行控制信息的方法和设备”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims the priority of the Chinese Patent Application, filed on Feb. 2, 2016, filed on Jan. 2,,,,,,,,,,,,,,,,,,,,,,,,, In this application.
本发明涉及无线通信技术领域,特别涉及一种传输上行控制信息的方法和设备。The present invention relates to the field of wireless communication technologies, and in particular, to a method and device for transmitting uplink control information.
为了支持LTE(Long Term Evolution,长期演进)系统部署在非授权频谱资源上进行传输,目前定义了授权LAA(Licensed Assisted Access,载波辅助接入)的方式。即终端使用非授权载波时,必须先接入一个授权的主载波,非授权载波只能作为辅载波。In order to support the deployment of LTE (Long Term Evolution) systems on unlicensed spectrum resources, a method of authorizing LAA (Licensed Assisted Access) is currently defined. That is, when the terminal uses an unlicensed carrier, it must first access an authorized primary carrier, and the unlicensed carrier can only serve as a secondary carrier.
非授权频谱没有规划具体的应用系统,可以为多种无线通信系统如蓝牙、WiFi等共享,多种系统间通过抢占资源的方式使用共享的非授权频谱资源。为了保证LTE终端的传输性能以及更好的使用非授权频段,在非授权频段上传输之前需要使用LBT(Listen Before Talk,先听后讲)机制。LBT过程是设备在使用信道进行传输之前进行的CCA(clear channel assessment,信道忙闲评估),通过能量检测等方式判断信道上是否存在其它信号,以决定信道是被占用还是空闲的,如果信道为空闲才能进行数据传输。The unlicensed spectrum does not have a specific application system, and can be shared by various wireless communication systems such as Bluetooth, WiFi, etc., and the shared unlicensed spectrum resources are used by multiple systems by preempting resources. In order to ensure the transmission performance of the LTE terminal and to better use the unlicensed frequency band, an LBT (Listen Before Talk) mechanism is required before transmission on the unlicensed frequency band. The LBT process is a CCA (clear channel assessment) performed by the device before using the channel for transmission. It is determined by energy detection whether other signals exist on the channel to determine whether the channel is occupied or idle. Idle for data transfer.
由于非授权频谱资源丰富,终端可能在很多个非授权载波上同时接收数据,如果仅支持在授权载波上传输上行控制信道,则会导致授权载波上的上行控制信道开销过大,因此需要考虑在非授权载波上传输上行控制信道。但是,非授权载波上的资源被多种系统共同使用,终端进行上行传输之前必须首先进LBT,无法保证终端在任何时刻都能够接入信道,如果终端在需要传输上行控制信道的时刻没有抢占到信道,则上行控制信息无法及时正确的传输。Because the unlicensed spectrum resources are abundant, the terminal may receive data on many unlicensed carriers at the same time. If only the uplink control channel is supported on the authorized carrier, the uplink control channel overhead on the authorized carrier is too large, so it needs to be considered. The uplink control channel is transmitted on the unlicensed carrier. However, the resources on the unlicensed carrier are used by multiple systems. The terminal must first enter the LBT before the uplink transmission. The terminal cannot access the channel at any time. If the terminal does not preempt the transmission of the uplink control channel. On the channel, the uplink control information cannot be transmitted correctly in time.
综上所述,目前终端如果在非授权载波上传输上行控制信道,无法保证终端在任何时刻都能够接入信道,并且有可能导致上行控制信息无法及时正确传输。In summary, if the terminal transmits the uplink control channel on the unlicensed carrier, the terminal cannot access the channel at any time, and the uplink control information cannot be correctly transmitted in time.
发明内容Summary of the invention
本发明提供一种传输上行控制信息的方法和设备,用以解决现有技术中存在的目前终端如果在非授权载波上传输上行控制信道,无法保证终端在任何时刻都能够接入信道,并且有可能导致上行控制信息无法及时正确传输的问题。The present invention provides a method and a device for transmitting uplink control information, which are used to solve the problem that the current terminal existing in the prior art can transmit an uplink control channel on an unlicensed carrier, and cannot ensure that the terminal can access the channel at any time. This may cause the uplink control information to be incorrectly transmitted in time.
本发明实施例提供的一种传输上行控制信息的方法,该方法包括:
A method for transmitting uplink control information provided by an embodiment of the present invention includes:
终端在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;The terminal performs LBT detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
若LBT检测失败,则所述终端确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;If the LBT detection fails, the terminal determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
所述终端通过PUCCH实际传输载波传输上行控制信息。The terminal transmits uplink control information by using a PUCCH actual transmission carrier.
可选的,所述终端在PUCCH传输载波上进行LBT检测之后,还包括:Optionally, after performing the LBT detection on the PUCCH transmission carrier, the terminal further includes:
若LBT检测成功,则所述终端将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the terminal uses the PUCCH transmission carrier as a PUCCH actual transmission carrier.
可选的,当所述PUCCH实际传输载波为LBT检测成功的非授权载波时,所述PUCCH实际传输载波为从切换载波组中选择的满足预定规则的载波,其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。Optionally, when the PUCCH actual transmission carrier is an unlicensed carrier that is successfully detected by the LBT, the PUCCH actual transmission carrier is a carrier that meets a predetermined rule selected from the group of switching carriers, where the switching carrier group includes The PUCCH transmits a carrier and at least one other unlicensed carrier.
可选的,所述预定规则为下列规则中的一个:Optionally, the predetermined rule is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;
LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;
LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
可选的,所述终端确定PUCCH实际传输载波,包括:Optionally, the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则所述终端将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the terminal uses the authorized carrier as the PUCCH actual transmission carrier.
可选的,所述终端通过下列方式判断当前是否支持PUCCH切换至授权载波:Optionally, the terminal determines, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
所述终端通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。The terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
可选的,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:Optionally, the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,所述终端通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
若所述PUCCH实际传输载波为授权载波,所述终端通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein, the authorized carrier is used. The PUCCH resource for transmitting the unlicensed carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述终端通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:Optionally, the terminal determines, by using part or all of the following manners, all PUCCH resources on the PUCCH actual transmission carrier:
所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH;
所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;
Determining, by the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH;
所述终端通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。The terminal determines, by using predefined configuration information, all PUCCH resources on the PUCCH actual transmission carrier.
可选的,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:Optionally, the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH transmission simultaneously, the terminal transmits uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
可选的,所述终端通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。Optionally, the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
本发明实施例提供的另一种传输上行控制信息的方法,该方法包括:Another method for transmitting uplink control information provided by the embodiment of the present invention includes:
网络侧设备在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;The network side device performs DTX detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
若DTX检测失败,则所述网络侧设备确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;If the DTX detection fails, the network side device determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息。The network side device actually transmits the uplink control information of the carrier through the PUCCH.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:Optionally, before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
所述网络侧设备为所述终端配置PUCCH传输载波。The network side device configures a PUCCH transmission carrier for the terminal.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之后,还包括:Optionally, after performing the DTX detection on the PUCCH transmission carrier, the network side device further includes:
若DTX检测成功,则所述网络侧设备将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the network side device uses the PUCCH transmission carrier as the PUCCH actual transmission carrier.
可选的,所述网络侧设备确定PUCCH实际传输载波,包括:Optionally, the network side device determines the PUCCH actual transmission carrier, including:
若DTX检测失败,所述网络侧设备对切换载波组中除PUCCH传输载波之外的每个其他非授权载波进行DTX检测;If the DTX detection fails, the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
所述网络侧设备将DTX检测成功的非授权载波作为PUCCH实际传输载波;The network side device uses the unlicensed carrier that is successfully detected by the DTX as the actual transmission carrier of the PUCCH;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述网络侧设备确定PUCCH实际传输载波,还包括:Optionally, the network side device determines the actual transmission carrier of the PUCCH, and further includes:
若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则所述网络侧设备将授权载波作为PUCCH实际传输载波。If the switching carrier group does not have an unlicensed carrier that is successfully detected by the DTX, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the network side device actually transmits the authorized carrier as the PUCCH. Carrier.
可选的,该方法还包括:Optionally, the method further includes:
所述网络侧设备通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授
权载波。The network side device indicates, by using high layer signaling or physical layer signaling, whether the terminal currently supports PUCCH handover to grant
Weight carrier.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:Optionally, before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
所述网络侧设备为所述终端配置切换载波组。The network side device configures a switching carrier group for the terminal.
可选的,所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息,包括:Optionally, the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, including:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,所述网络侧设备通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;If the PUCCH actual transmission carrier is an unlicensed carrier that is successfully detected by the DTX, the network side device reserves, by using the unlicensed carrier in the handover carrier group, a PUCCH resource for transmitting uplink control information, and the receiving terminal Uplink control information;
若所述PUCCH实际传输载波为授权载波,所述网络侧设备通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the PUCCH actual transmission carrier is an authorized carrier, the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting the uplink control information of the unlicensed carrier handover for the terminal, where the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述PUCCH资源为非预定义的资源;Optionally, the PUCCH resource is a non-predefined resource;
所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息之前,还包括:Before the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, the network side device further includes:
所述终端通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Transmitting, by the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal; and/or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
本发明实施例提供的一种传输上行控制信息的终端,该终端包括:A terminal for transmitting uplink control information is provided by the embodiment of the present invention, where the terminal includes:
第一检测模块,用于在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;a first detecting module, configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
第一处理模块,用于若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;a first processing module, configured to determine, if the LBT detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
传输模块,用于通过PUCCH实际传输载波传输上行控制信息。And a transmission module, configured to transmit uplink control information by using a PUCCH actual transmission carrier.
可选的,所述第一处理模块还用于:Optionally, the first processing module is further configured to:
若LBT检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述第一处理模块具体用于:Optionally, the first processing module is specifically configured to:
若LBT检测失败,从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波;If the LBT detection fails, the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述预定规则为下列规则中的一个:Optionally, the predetermined rule is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;
LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;
LBT检测成功的非授权载波中随机挑选。
Random selection of unlicensed carriers for successful LBT detection.
可选的,所述第一处理模块还用于:Optionally, the first processing module is further configured to:
若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述第一处理模块通过下列方式判断当前是否支持PUCCH切换至授权载波:Optionally, the first processing module determines whether the PUCCH is currently switched to the authorized carrier by using the following manner:
通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。Whether the PUCCH handover to the authorized carrier is currently supported is determined by the indication information included in the high layer signaling or the physical layer signaling.
可选的,所述传输模块具体用于:Optionally, the transmission module is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
若所述PUCCH实际传输载波为授权载波,通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述传输模块通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:Optionally, the transmitting module determines all PUCCH resources on the PUCCH actual transmission carrier by using part or all of the following manners:
通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by using downlink control indication information, all PUCCH resources on the PUCCH actual transmission carrier;
通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the PUCCH actual transmission carrier;
通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
可选的,所述传输模块通过PUCCH实际传输载波传输上行控制信息,具体包括:Optionally, the transmitting module transmits uplink control information by using a PUCCH actual transmission carrier, specifically:
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support simultaneous transmission of the PUCCH and the PUSCH, the terminal transmits the uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
可选的,所述通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。Optionally, the uplink control information that is transmitted by using the PUCCH to actually transmit the carrier includes uplink control information of all carriers in the carrier group to which the actual transmission carrier of the PUCCH belongs.
本发明实施例提供的一种传输上行控制信息的网络侧设备,该网络侧设备包括:A network side device for transmitting uplink control information is provided by the embodiment of the present invention, where the network side device includes:
第二检测模块,用于在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;a second detecting module, configured to perform DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
第二处理模块,用于若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;a second processing module, configured to determine a PUCCH actual transmission carrier if the DTX detection fails, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
接收模块,用于通过PUCCH实际传输载波接收终端的上行控制信息。
The receiving module is configured to actually transmit uplink control information of the carrier through the PUCCH.
可选的,所述第二处理模块还用于:Optionally, the second processing module is further configured to:
为所述终端配置PUCCH传输载波。A PUCCH transmission carrier is configured for the terminal.
可选的,所述第二处理模块还用于:Optionally, the second processing module is further configured to:
若DTX检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述第二处理模块具体用于:Optionally, the second processing module is specifically configured to:
若DTX检测失败,对切换载波组中除PUCCH传输载波之外的每个非授权载波进行DTX检测;If the DTX detection fails, performing DTX detection on each unlicensed carrier except the PUCCH transmission carrier in the handover carrier group;
将DTX检测成功的非授权载波作为PUCCH实际传输载波;The unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述第二处理模块还用于:Optionally, the second processing module is further configured to:
若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述第二处理模块还用于:Optionally, the second processing module is further configured to:
通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
可选的,所述第二处理模块在第二检测模块在PUCCH传输载波上进行DTX检测之前,还用于:Optionally, before the second detection module performs DTX detection on the PUCCH transmission carrier, the second processing module is further configured to:
为所述终端配置切换载波组。A switching carrier group is configured for the terminal.
可选的,所述接收模块具体用于:Optionally, the receiving module is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
若所述PUCCH实际传输载波为授权载波,通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。And if the PUCCH actual transmission carrier is an authorized carrier, the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched. The PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
可选的,所述PUCCH资源为非预定义的资源;Optionally, the PUCCH resource is a non-predefined resource;
所述第二处理模块还用于:The second processing module is further configured to:
通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Notifying, by the downlink control indication information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal; and/or
通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。Notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
本申请实施例提供的另一种终端,包括:Another terminal provided by the embodiment of the present application includes:
处理器,用于读取存储器中的程序,执行下列过程:A processor for reading a program in the memory, performing the following process:
在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;若
LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;利用收发机通过PUCCH实际传输载波传输上行控制信息;Performing LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
If the LBT detection fails, the actual transmission carrier of the PUCCH is determined, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT; and the uplink control information is transmitted by using the transceiver to actually transmit the carrier through the PUCCH;
收发机,用于在处理器的控制下接收和发送数据。A transceiver for receiving and transmitting data under the control of a processor.
本申请实施例提供的另一种网络侧设备,包括:Another network side device provided by the embodiment of the present application includes:
处理器,用于读取存储器中的程序,执行下列过程:A processor for reading a program in the memory, performing the following process:
在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;利用收发机通过PUCCH实际传输载波接收终端的上行控制信息;Performing DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the DTX detection fails, determining a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX Transmitting the uplink control information of the carrier receiving terminal through the PUCCH by using the transceiver;
收发机,用于在处理器的控制下接收和发送数据。A transceiver for receiving and transmitting data under the control of a processor.
本发明实施例终端在PUCCH传输载波上进行LBT检测失败后,可以确定PUCCH实际传输载波,并通过PUCCH实际传输载波传输上行控制信息,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波。由于本发明实施例终端可以确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波,从而可以切换到其它LBT检测成功的非授权载波或者授权载波传输上行控制信息,避免了由于抢占不到信道导致上行控制信息无法及时正确传输的情况发生;进一步提高了系统性能。In the embodiment of the present invention, after performing the LBT detection failure on the PUCCH transmission carrier, the terminal may determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the actual transmission carrier of the PUCCH is the authorized carrier or the LBT detection succeeds. Authorized carrier. In the embodiment of the present invention, the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched. The information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system performance.
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简要介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域的普通技术人员来讲,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。In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, Those skilled in the art can also obtain other drawings based on these drawings without paying for inventive labor.
图1为本发明实施例传输上行控制信息的系统结构示意图;1 is a schematic structural diagram of a system for transmitting uplink control information according to an embodiment of the present invention;
图2为本发明实施例第一种终端的结构示意图;2 is a schematic structural diagram of a first terminal according to an embodiment of the present invention;
图3为本发明实施例第一种网络侧设备的结构示意图;3 is a schematic structural diagram of a first network side device according to an embodiment of the present invention;
图4为本发明实施例第二种终端的结构示意图;4 is a schematic structural diagram of a second terminal according to an embodiment of the present invention;
图5为本发明实施例第二种网络侧设备的结构示意图;FIG. 5 is a schematic structural diagram of a second network side device according to an embodiment of the present invention;
图6为本发明实施例终端侧传输上行控制信息的方法流程示意图;6 is a schematic flowchart of a method for transmitting uplink control information on a terminal side according to an embodiment of the present invention;
图7为本发明实施例网络侧传输上行控制信息的方法流程示意图。FIG. 7 is a schematic flowchart of a method for transmitting uplink control information on a network side according to an embodiment of the present invention.
本发明实施例终端在PUCCH(Physical Uplink Control Channel,物理上行控制信道)传输载波上进行LBT检测失败后,可以确定PUCCH实际传输载波,并通过PUCCH实际传输载波传输上行控制信息,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波。由于本发明实施例终端可以确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波,从而可以切换到其它LBT检测成功的非授权载波或者授权载波传输上行控制信息,避免了由于抢占不到信道导致上行控制信息无法及时正确传输的情况发生;进一步提高了系统性。In the embodiment of the present invention, after the LBT detection fails on the PUCCH (Physical Uplink Control Channel) transmission carrier, the terminal may determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the PUCCH is actually The transmission carrier is an authorized carrier or an unlicensed carrier that the LBT detects successfully. In the embodiment of the present invention, the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched. The information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system.
其中,本发明实施例可以应用于终端聚合了一个授权载波以及至少一个非授权载波的场景。The embodiment of the present invention can be applied to a scenario in which a terminal aggregates one authorized carrier and at least one unlicensed carrier.
为了使本发明的目的、技术方案和优点更加清楚,下面将结合附图对本发明作进一步地详细描述,显然,所描述的实施例仅仅是本发明一部份实施例,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做出创造性劳动前提下所获得的所有其它实施例,都属于本发明保护的范围。The present invention will be further described in detail with reference to the accompanying drawings, in which . All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
下面结合说明书附图对本发明实施例作进一步详细描述。The embodiments of the present invention are further described in detail below with reference to the accompanying drawings.
如图1所示,本发明实施例传输上行控制信息的系统包括:终端10和网络侧设备20。As shown in FIG. 1, the system for transmitting uplink control information in the embodiment of the present invention includes: a terminal 10 and a network side device 20.
终端10,用于在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;通过PUCCH实际传输载波传输上行控制信息。The terminal 10 is configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the LBT detection fails, determine a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an LBT detection. A successful unlicensed carrier; the uplink control information is transmitted through the actual transmission carrier of the PUCCH.
网络侧设备20,用于在PUCCH传输载波上进行DTX(Discontinuous Transmission,不连续发送)检测,其中所述PUCCH传输载波为非授权载波;若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;通过PUCCH实际传输载波接收终端的上行控制信息。The network side device 20 is configured to perform DTX (Discontinuous Transmission) detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the DTX detection fails, determine the PUCCH actual transmission carrier, where the The actual transmission carrier of the PUCCH is an unlicensed carrier whose authorized carrier or DTX is successfully detected; the uplink control information of the carrier receiving terminal is actually transmitted through the PUCCH.
本发明实施例终端在对PUCCH传输载波进行LBT检测失败后,可以将授权载波或LBT检测成功的非授权载波作为PUCCH实际传输载波传输上行控制信息;In the embodiment of the present invention, after performing the LBT detection on the PUCCH transmission carrier, the terminal may use the authorized carrier or the unlicensed carrier that is successfully detected by the LBT to transmit the uplink control information as the actual transmission carrier of the PUCCH.
相应的,网络侧设备在对PUCCH传输载波进行DTX检测失败后,可以将授权载波或DTX检测成功的一个其他非授权载波作为PUCCH实际传输载波接收上行控制信息。Correspondingly, after failing to perform DTX detection on the PUCCH transmission carrier, the network side device may receive the uplink control information as the PUCCH actual transmission carrier by using the authorized carrier or one other unlicensed carrier that is successfully detected by the DTX.
如果终端在对PUCCH传输载波进行LBT检测成功,则将PUCCH传输载波作为PUCCH实际传输载波传输上行控制信息;If the terminal successfully performs LBT detection on the PUCCH transmission carrier, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier to transmit uplink control information;
相应的,如果网络侧设备在对PUCCH传输载波进行DTX检测成功,则将PUCCH传输载波作为PUCCH实际传输载波接收上行控制信息。Correspondingly, if the network side device successfully performs DTX detection on the PUCCH transmission carrier, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier to receive uplink control information.
本发明实施例可以为终端配置切换载波组,也可以不为终端配置切换载波组,下面分情况进行说明。
In the embodiment of the present invention, the switching carrier group may be configured for the terminal, or the switching carrier group may not be configured for the terminal.
情况一、不为终端配置切换载波组。Case 1: The switch carrier group is not configured for the terminal.
在实施中,网络侧设备可以为所述终端配置PUCCH传输载波;In an implementation, the network side device may configure a PUCCH transmission carrier for the terminal;
相应的,终端根据网络侧设备的配置确定PUCCH传输载波。Correspondingly, the terminal determines the PUCCH transmission carrier according to the configuration of the network side device.
这种情况下,若LBT检测失败,所述终端将授权载波作为PUCCH实际传输载波;In this case, if the LBT detection fails, the terminal uses the authorized carrier as the actual transmission carrier of the PUCCH;
相应的,若DTX检测失败,所述网络侧设备将授权载波作为PUCCH实际传输载波。Correspondingly, if the DTX detection fails, the network side device uses the authorized carrier as the PUCCH actual transmission carrier.
可选的,所述终端通过PUCCH实际传输载波传输上行控制信息时,若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH(Physical Uplink Shared Channel,物理上行链路共享信道)同时传输,则所述终端通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或Optionally, when the terminal transmits uplink control information by using a PUCCH actual transmission carrier, if the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH (Physical Uplink Shared Channel, The physical uplink shared channel is transmitted simultaneously, and the terminal transmits the uplink control information by using the PUCCH on the actual transmission carrier of the PUCCH; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
在实施中,可以为所有载波划分载波组,这里的载波组与切换载波组不同。包含主载波的载波组称为主载波组,不包含主载波的载波组称为第二载波组,PUCCH实际传输载波属于第二载波组,该PUCCH实际传输载波上传输的上行控制信息可以包括第二载波组所有载波的上行控制信息。In an implementation, a carrier group may be divided for all carriers, where the carrier group is different from the switching carrier group. A carrier group including a primary carrier is referred to as a primary carrier group, a carrier group not including a primary carrier is referred to as a second carrier group, and an actual transmission carrier of the PUCCH belongs to a second carrier group, and uplink control information transmitted on the actual transmission carrier of the PUCCH may include Uplink control information of all carriers in the two carrier groups.
具体的,所述终端通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的第二载波组中所有载波的上行控制信息;Specifically, the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the second carrier group to which the PUCCH actual transmission carrier belongs;
所述终端通过PUCCH实际传输载波传输上行控制信息。The terminal transmits uplink control information by using a PUCCH actual transmission carrier.
比如,第二载波组中包括载波1、载波2和载波3,如果载波1是PUCCH实际传输载波,则载波1上传输的上行控制信息可以包括载波1、载波2和载波3中的部分或全部载波的上行控制信息。For example, the second carrier group includes carrier 1, carrier 2, and carrier 3. If carrier 1 is a PUCCH actual transmission carrier, the uplink control information transmitted on carrier 1 may include part or all of carrier 1, carrier 2, and carrier 3. Uplink control information of the carrier.
其中,PUCCH实际传输载波为PUCCH传输载波和PUCCH实际传输载波为授权载波时,PUCCH实际传输载波上的PUCCH资源指示方式不同,下面分别进行介绍。When the PUCCH actual transmission carrier is the PUCCH transmission carrier and the PUCCH actual transmission carrier is the authorized carrier, the PUCCH resource indication manners on the PUCCH actual transmission carrier are different, and are respectively introduced below.
方式一、若所述PUCCH实际传输载波为PUCCH传输载波,所述终端通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;Manner 1: If the actual transmission carrier of the PUCCH is a PUCCH transmission carrier, the terminal transmits uplink control information by using a PUCCH resource on the actual transmission carrier of the PUCCH;
相应的,所述网络侧设备通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息。Correspondingly, the network side device reserves the PUCCH resource for transmitting the uplink control information for the terminal by using the unlicensed carrier in the switching carrier group, and receives the uplink control information of the terminal.
其中,PUCCH传输载波上有PUCCH资源,该PUCCH资源用于传输上行控制信息。资源的数量可以根据需要设定,比如1个。The PUCCH resource has a PUCCH resource, and the PUCCH resource is used to transmit uplink control information. The number of resources can be set as needed, such as one.
在实施中,PUCCH传输载波上有PUCCH资源可以采用预定义方式设定,这样就不需要网络侧设备为终端进行配置。In the implementation, the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
如果不采用预定义方式设定,则:
If you do not use the predefined settings, then:
网络侧设备可以通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;The network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
相应的,所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源。和/或Correspondingly, the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
相应的,所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。Correspondingly, the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
方式二、若所述PUCCH实际传输载波为授权载波,所述终端通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。Manner 2: If the actual transmission carrier of the PUCCH is an authorized carrier, the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; The PUCCH resource for transmitting the unlicensed carrier on the carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
相应的,所述网络侧设备通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源。Correspondingly, the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting, by the terminal, uplink control information for unlicensed carrier handover.
其中,授权载波上有PUCCH资源,该PUCCH资源可以有两类,也可以是一类。如果是两类,则一类为用于传输非授权载波切换的上行控制信息的PUCCH资源,另一类为用于传输授权载波的上行控制信息的PUCCH资源;The PUCCH resource is available on the authorized carrier. The PUCCH resource may be of two types or one type. If there are two types, one is a PUCCH resource for transmitting uplink control information of an unlicensed carrier handover, and the other is a PUCCH resource for transmitting uplink control information of an authorized carrier;
如果是一类,由于该PUCCH资源即可以传输非授权载波切换的上行控制信;也可以传输授权载波的上行控制信息,所以有可能同时传输两种上行控制信,所以该PUCCH资源可以比较大。可选的,为了避免资源浪费,基站在确认终端抢占到信道之后可指示其它终端使用该资源。If the PUCCH resource can transmit the uplink control information of the unlicensed carrier handover, the uplink control information of the authorized carrier can also be transmitted. Therefore, it is possible to transmit the two uplink control signals at the same time, so the PUCCH resource can be relatively large. Optionally, in order to avoid waste of resources, the base station may instruct other terminals to use the resource after confirming that the terminal preempts the channel.
在实施中,PUCCH传输载波上有PUCCH资源可以采用预定义方式设定,这样就不需要网络侧设备为终端进行配置。In the implementation, the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
如果不采用预定义方式设定,则:If you do not use the predefined settings, then:
网络侧设备可以通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;The network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
相应的,所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源。和/或Correspondingly, the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;The network side device notifies, by using the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal;
相应的,所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。Correspondingly, the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
情况二、为终端配置切换载波组。
Case 2: Configure a switching carrier group for the terminal.
这里的切换载波组包括PUCCH传输载波和至少一个其他非授权载波。The handover carrier group herein includes a PUCCH transmission carrier and at least one other unlicensed carrier.
在实施中,网络侧设备可以为所述终端配置切换载波组;In an implementation, the network side device may configure a switching carrier group for the terminal;
相应的,终端根据网络侧设备的配置确定切换载波组。Correspondingly, the terminal determines the switching carrier group according to the configuration of the network side device.
这种情况下,若LBT检测失败,所述终端从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波。In this case, if the LBT detection fails, the terminal selects an unlicensed carrier that satisfies a predetermined rule from the switching carrier group and the LBT detection succeeds as the PUCCH actual transmission carrier.
相应的,若DTX检测失败,所述网络侧设备对切换载波组中除PUCCH传输载波之外的每个其他非授权载波进行DTX检测;将DTX检测成功的非授权载波作为PUCCH实际传输载波。Correspondingly, if the DTX detection fails, the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group; the unlicensed carrier that successfully detects the DTX is used as the PUCCH actual transmission carrier.
对于情况二,假设切换载波组中有N个非授权载波,如果在PUCCH传输载波进行DTX检测失败,如果剩余N-1个非授权载波中的M个非授权载波上进行LBT检测成功,则终端根据预定规则选择PUCCH实际传输载波,其中M大于等于1且小于等于N-1;For case 2, it is assumed that there are N unlicensed carriers in the switched carrier group. If the DTX detection fails on the PUCCH transmission carrier, if the LBT detection succeeds on the M unlicensed carriers among the remaining N-1 unlicensed carriers, the terminal Selecting a PUCCH actual transmission carrier according to a predetermined rule, where M is greater than or equal to 1 and less than or equal to N-1;
相应的,网络侧设备如果在PUCCH传输载波进行DTX检测失败,则对剩余的N-1个非授权载波分别进行DTX检测。Correspondingly, if the network side device fails to perform DTX detection on the PUCCH transmission carrier, DTX detection is performed on each of the remaining N-1 unlicensed carriers.
可选的,本发明实施例的所述预定规则为下列规则中的一个:Optionally, the predetermined rule in the embodiment of the present invention is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的,比如在M个非授权载波中选择载波序号最小的作为PUCCH实际传输载波;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest, for example, the smallest carrier number of the M unlicensed carriers is selected as the actual PUCCH carrier;
LBT检测成功的非授权载波中优先级最高的,其中所述优先级可以根据载波上的干扰条件或者其他方式确定;The highest priority among the unlicensed carriers that the LBT detects successfully, wherein the priority may be determined according to interference conditions on the carrier or other manners;
LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
可选的,若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则所述终端将授权载波作为PUCCH实际传输载波;Optionally, if the switch carrier group does not have an unlicensed carrier that is successfully detected by the LBT, and the switch carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the terminal uses the authorized carrier as the actual PUCCH. Transmission carrier
相应的,若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则所述网络侧设备将授权载波作为PUCCH实际传输载波。Correspondingly, if there is no unlicensed carrier in the switching carrier group that is successfully detected by the DTX, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the network side device uses the authorized carrier as The PUCCH actually transmits the carrier.
也就是说,如果上述N个非授权载波上进行LBT均失败That is, if the above L unlicensed carriers fail to perform LBT
如果PUCCH切换载波组中不包含授权载波或者不支持PUCCH切换至授权载波,则终端认为LBT失败,不传输上行控制信息;If the PUCCH switching carrier group does not include the authorized carrier or does not support the PUCCH handover to the authorized carrier, the terminal considers that the LBT fails and does not transmit the uplink control information;
相应的,如果PUCCH切换载波组中不包含授权载波或者不支持PUCCH切换至授权载波,则网络侧设备认为终端没有传输上行控制信道,不需要在当前子帧接收上行控制信道。Correspondingly, if the PUCCH switching carrier group does not include the authorized carrier or does not support the PUCCH handover to the authorized carrier, the network side device considers that the terminal does not transmit the uplink control channel, and does not need to receive the uplink control channel in the current subframe.
如果PUCCH切换载波组中包含授权载波并且支持PUCCH切换至授权载波,则确定授权载波为PUCCH实际传输载。
If the PUCCH handover carrier group includes the licensed carrier and supports the PUCCH handover to the authorized carrier, it is determined that the authorized carrier is the PUCCH actual transmission payload.
其中,本发明实施例还可以规定一个所述切换载波组中只有一个授权载波。当然多个也可以。The embodiment of the present invention may further specify that only one authorized carrier is included in one of the switching carrier groups. Of course, more than one can.
在实施中,所述网络侧设备通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波,例如可以在下行调度信令中通过1比特进行指示;In an implementation, the network side device indicates, by using the high layer signaling or the physical layer signaling, whether the terminal currently supports the PUCCH handover to the authorized carrier, for example, by using 1 bit in the downlink scheduling signaling;
相应的,所述终端通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。Correspondingly, the terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
其中,PUCCH实际传输载波为PUCCH传输载波和PUCCH实际传输载波为授权载波时,PUCCH实际传输载波上的PUCCH资源不同,下面分别进行介绍。When the PUCCH actual transmission carrier is the PUCCH transmission carrier and the PUCCH actual transmission carrier is the authorized carrier, the PUCCH resources on the PUCCH actual transmission carrier are different, and are respectively introduced below.
方式一、若所述PUCCH实际传输载波为DTX检测成功的非授权载波,所述终端通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;Manner 1: If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
相应的,所述网络侧设备通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息。Correspondingly, the network side device reserves the PUCCH resource for transmitting the uplink control information for the terminal by using the unlicensed carrier in the switching carrier group, and receives the uplink control information of the terminal.
其中,PUCCH传输载波上有PUCCH资源,该PUCCH资源用于传输上行控制信息。资源的数量可以根据需要设定,比如1个。The PUCCH resource has a PUCCH resource, and the PUCCH resource is used to transmit uplink control information. The number of resources can be set as needed, such as one.
在实施中,PUCCH传输载波上有PUCCH资源可以采用预定义方式设定,这样就不需要网络侧设备为终端进行配置。In the implementation, the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
如果不采用预定义方式设定,则:If you do not use the predefined settings, then:
网络侧设备可以通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;The network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
相应的,所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源。和/或Correspondingly, the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
相应的,所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。Correspondingly, the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
方式二、若所述PUCCH实际传输载波为授权载波,所述终端通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。Manner 2: If the actual transmission carrier of the PUCCH is an authorized carrier, the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; The PUCCH resource for transmitting the unlicensed carrier on the carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
相应的,所述网络侧设备通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源。Correspondingly, the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting, by the terminal, uplink control information for unlicensed carrier handover.
其中,授权载波上有PUCCH资源,该PUCCH资源可以有两类,也可以是一类。如果是两类,则一类为用于传输非授权载波切换的上行控制信息的PUCCH资源,另一类为
用于传输授权载波的上行控制信息的PUCCH资源;The PUCCH resource is available on the authorized carrier. The PUCCH resource may be of two types or one type. If there are two types, one is a PUCCH resource for transmitting uplink control information for unlicensed carrier switching, and the other is
a PUCCH resource for transmitting uplink control information of an authorized carrier;
如果是一类,由于该PUCCH资源既可以传输非授权载波切换的上行控制信;也可以传输授权载波的上行控制信息,所以有可能同时传输两种上行控制信,所以该PUCCH资源可以比较大。可选的,为了避免资源浪费,基站在确认终端抢占到信道之后可指示其它终端使用该资源。If the PUCCH resource can transmit the uplink control information of the unlicensed carrier handover, and the uplink control information of the authorized carrier can also be transmitted, it is possible to transmit the two uplink control signals at the same time, so the PUCCH resource can be relatively large. Optionally, in order to avoid waste of resources, the base station may instruct other terminals to use the resource after confirming that the terminal preempts the channel.
相应的,基站可以通过盲检确定PUCCH资源上传输的是非授权载波切换的上行控制信,还是传输授权载波的上行控制信息,还是两个都传输。Correspondingly, the base station can determine whether the uplink control signal transmitted by the unlicensed carrier is transmitted on the PUCCH resource, or the uplink control information of the authorized carrier is transmitted, or both are transmitted.
在实施中,PUCCH传输载波上有PUCCH资源可以采用预定义方式设定,这样就不需要网络侧设备为终端进行配置。In the implementation, the PUCCH resource on the PUCCH transmission carrier can be set in a predefined manner, so that the network side device is not required to configure the terminal.
如果不采用预定义方式设定,则:If you do not use the predefined settings, then:
网络侧设备可以通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;The network side device may notify, by using the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal;
相应的,所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源。和/或Correspondingly, the terminal determines, by using downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH. and / or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
相应的,所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。Correspondingly, the terminal determines, by using the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH.
其中,本发明实施例的网络侧设备可以是基站(比如宏基站、家庭基站等),还可以是其它网络侧设备。The network side device in the embodiment of the present invention may be a base station (such as a macro base station, a home base station, etc.), and may also be other network side devices.
本发明实施例的终端也可以称为UE(用户设备),比如pad、手机等能够连接网络侧设备的终端。A terminal in the embodiment of the present invention may also be referred to as a UE (user equipment), such as a terminal that can connect to a network side device, such as a pad or a mobile phone.
下面列举几个例子对本发明的方案进行详细说明。The scheme of the present invention will be described in detail below by way of a few examples.
实施例1:Example 1:
终端聚合了10个载波,其中载波1为授权载波,载波2~10为非授权载波。载波1~5为载波组A,载波6~10为载波组B,载波1为载波组A中的主载波,载波6为载波组B中的主载波。基站将载波6配置为PUCCH传输载波,终端需要针对载波6和载波10进行上行控制信息反馈,具体实现过程根据下列不同情况分别进行描述:The terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers. Carriers 1 to 5 are carrier group A, carriers 6 to 10 are carrier group B, carrier 1 is a primary carrier in carrier group A, and carrier 6 is a primary carrier in carrier group B. The base station configures the carrier 6 as the PUCCH transmission carrier, and the terminal needs to perform uplink control information feedback for the carrier 6 and the carrier 10. The specific implementation process is described according to the following different situations:
情况1:终端在载波6上进行LBT检测,载波6上的LBT检测结果为载波空闲,则在载波6上的PUCCH传输载波6和载波10的上行控制信息;Case 1: The terminal performs LBT detection on the carrier 6, and the LBT detection result on the carrier 6 is that the carrier is idle, and the PUCCH on the carrier 6 transmits the uplink control information of the carrier 6 and the carrier 10;
相应的,基站在载波6上进行DTX检测,检测到PUCCH传输之后接收上行控制信息。Correspondingly, the base station performs DTX detection on the carrier 6, and receives uplink control information after detecting the PUCCH transmission.
情况2:终端在载波6上进行LBT检测,载波6上的LBT检测结果为载波忙,则在载波1上的PUCCH传输载波6和载波10的上行控制信息;
Case 2: The terminal performs LBT detection on the carrier 6, and the LBT detection result on the carrier 6 is that the carrier is busy, and the PUCCH on the carrier 1 transmits the uplink control information of the carrier 6 and the carrier 10;
相应的,基站首先在载波6上进行DTX检测,未检测到PUCCH传输,然后在载波1上进行DTX检测,检测到PUCCH传输之后接收上行控制信息。Correspondingly, the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carrier 1, and receives the uplink control information after detecting the PUCCH transmission.
情况3:终端不支持PUCCH和PUSCH的同时传输。Case 3: The terminal does not support simultaneous transmission of PUCCH and PUSCH.
终端在载波6上进行LBT检测,载波6上的LBT检测结果为载波忙,且基站在载波1上调度了上行数据传输,则终端在载波1上的PUSCH传输载波6和载波10的上行控制信息;The terminal performs LBT detection on the carrier 6, the LBT detection result on the carrier 6 is that the carrier is busy, and the base station schedules uplink data transmission on the carrier 1, and the terminal controls the uplink control information of the carrier 6 and the carrier 10 on the carrier 1 ;
相应的,基站首先在载波6上进行DTX检测,未检测到PUCCH传输,然后在载波1上的PUSCH中接收上行控制信息。Correspondingly, the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then receives the uplink control information in the PUSCH on the carrier 1.
实施例2:Example 2:
终端聚合了10个载波,其中载波1为授权载波,载波2~10为非授权载波。载波1~5为载波组A,载波6~10为载波组B,载波1为载波组A中的主载波,载波6为载波组B中的主载波。基站将载波6配置为PUCCH传输载波,并将载波6~10配置为切换载波组。终端需要针对载波6和载波10进行上行控制信息反馈,执行下列过程:The terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers. Carriers 1 to 5 are carrier group A, carriers 6 to 10 are carrier group B, carrier 1 is a primary carrier in carrier group A, and carrier 6 is a primary carrier in carrier group B. The base station configures the carrier 6 as a PUCCH transmission carrier, and configures the carriers 6 to 10 as a handover carrier group. The terminal needs to perform uplink control information feedback for carrier 6 and carrier 10, and performs the following process:
情况1:终端在载波6~10上进行LBT检测,载波6上的LBT检测结果为载波空闲,则在载波6上传输PUCCH;Case 1: The terminal performs LBT detection on carriers 6-10, and the LBT detection result on carrier 6 is carrier idle, then PUCCH is transmitted on carrier 6.
相应的,基站在载波6上进行DTX检测,在检测到PUCCH传输之后接收上行控制信息。Correspondingly, the base station performs DTX detection on the carrier 6, and receives uplink control information after detecting the PUCCH transmission.
情况2:终端在载波6~10上进行LBT检测,载波6和载波8上的LBT检测结果为载波忙,而在载波7、载波9和载波10上的LBT检测结果为载波空闲,终端根据载波序号选择PUCCH传输载波,则选择在LBT检测成功且载波序号最小的载波7上传输PUCCH;Case 2: The terminal performs LBT detection on carriers 6 to 10. The LBT detection result on carrier 6 and carrier 8 is carrier busy, and the LBT detection result on carrier 7, carrier 9 and carrier 10 is carrier idle, and the terminal is based on carrier. Selecting a PUCCH transmission carrier, and selecting to transmit a PUCCH on the carrier 7 with successful LBT detection and the smallest carrier number;
相应的,基站首先在载波6上进行DTX检测,未检测到PUCCH传输,然后按照载波序号分别在载波7~10上进行DTX检测,在载波7上检测到PUCCH传输之后接收上行控制信息;Correspondingly, the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carriers 7-10 according to the carrier sequence, and receives the uplink control information after detecting the PUCCH transmission on the carrier 7.
情况3:终端根据调度信息和载波序号选择PUCCH传输载波,由于仅需要针对载波6和载波10传输上行控制信息,则选择在LBT检测成功且有上行控制信息反馈的载波10上传输PUCCH;Case 3: The terminal selects a PUCCH transmission carrier according to the scheduling information and the carrier sequence number. Since only the uplink control information needs to be transmitted for the carrier 6 and the carrier 10, the PUCCH is selected to be transmitted on the carrier 10 with the LBT detection success and the uplink control information feedback.
相应的,基站首先在载波6上进行DTX检测,未检测到PUCCH传输,然后在终端需要进行上行控制信息反馈的载波10上进行DTX检测,在载波10上检测到PUCCH传输之后接收上行控制信息。Correspondingly, the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carrier 10 on which the terminal needs to perform uplink control information feedback, and receives uplink control information after detecting the PUCCH transmission on the carrier 10.
情况4:终端根据干扰信息选择PUCCH传输载波,终端检测到载波7和载波10上的干扰较大,而载波9上干扰较小,则选择在载波9上传输PUCCH;Case 4: The terminal selects a PUCCH transmission carrier according to the interference information, and the terminal detects that the interference on the carrier 7 and the carrier 10 is large, and the interference on the carrier 9 is small, then the PUCCH is selected to be transmitted on the carrier 9;
相应的,基站首先在载波6上进行DTX检测,未检测到PUCCH传输,然后按照载波序号分别在载波7~10上进行DTX检测,在载波9上检测到PUCCH传输之后接收上行控
制信息。Correspondingly, the base station first performs DTX detection on the carrier 6, does not detect the PUCCH transmission, and then performs DTX detection on the carriers 7-10 according to the carrier sequence, and receives the uplink control after detecting the PUCCH transmission on the carrier 9.
Information.
实施例3:Example 3:
终端聚合了10个载波,其中载波1为授权载波,载波2~10为非授权载波。载波1~5为载波组A,载波6~10为载波组B,载波1为载波组A中的主载波,载波6为载波组B中的主载波。基站将载波6配置为PUCCH传输载波,并将载波6~10配置为PUCCH切换载波组。终端需要针对载波1和载波2/6和载波10进行上行控制信息反馈,执行下列过程:The terminal aggregates 10 carriers, where carrier 1 is an authorized carrier and carriers 2-10 are unlicensed carriers. Carriers 1 to 5 are carrier group A, carriers 6 to 10 are carrier group B, carrier 1 is a primary carrier in carrier group A, and carrier 6 is a primary carrier in carrier group B. The base station configures the carrier 6 as a PUCCH transmission carrier, and configures the carriers 6 to 10 as a PUCCH switching carrier group. The terminal needs to perform uplink control information feedback for carrier 1 and carrier 2/6 and carrier 10, and performs the following process:
情况1:终端在载波1反馈载波1和载波2的上行控制信息,在载波6~10上进行LBT检测,载波6~10上的LBT检测结果均为载波忙,则也在载波1上传输载波6和载波10的上行控制信息。载波1和载波2的上行控制信息和载波6和载波10的上行控制信息使用同一个PUCCH。Case 1: The terminal feeds back the uplink control information of carrier 1 and carrier 2 on carrier 1, and performs LBT detection on carriers 6 to 10. The LBT detection result on carriers 6 to 10 is carrier busy, and the carrier is also transmitted on carrier 1. 6 and uplink control information of carrier 10. The uplink control information of carrier 1 and carrier 2 and the uplink control information of carrier 6 and carrier 10 use the same PUCCH.
相应的,基站首先在载波6~10上进行DTX检测,均未检测到PUCCH传输,然后在载波1上使用两种长度的比特去解码PUCCH,第一种长度对应了仅反馈载波1和载波2的上行控制信息,第二种长度对应同时反馈了载波1和载波2/6和载波10的上行控制信息,如果基站使用第一种长度解码成功,说明终端仅反馈载波1和载波2的上行控制信息,如果使用第二种长度解码成功,说明终端同时反馈了载波1和载波2/6和载波10的上行控制信息。Correspondingly, the base station first performs DTX detection on carriers 6-10, and does not detect PUCCH transmission, and then uses two length bits on carrier 1 to decode PUCCH, and the first length corresponds to only feedback carrier 1 and carrier 2 Uplink control information, the second length corresponds to the uplink control information of carrier 1 and carrier 2/6 and carrier 10, and if the base station successfully decodes using the first type, the terminal only feeds back uplink control of carrier 1 and carrier 2. The information, if the second length decoding is successful, indicates that the terminal simultaneously feeds back uplink control information of carrier 1 and carrier 2/6 and carrier 10.
情况2:终端在载波1反馈载波1和载波2的上行控制信息,在载波6~10上进行LBT检测,载波6~10上的LBT检测结果均为载波忙,则也在载波1上传输载波6和载波10的上行控制信息。载波1和载波2的上行控制信息和载波6和载波10的上行控制信息使用不同的PUCCH资源。Case 2: The terminal feeds back the uplink control information of carrier 1 and carrier 2 on carrier 1, and performs LBT detection on carriers 6 to 10. The LBT detection result on carriers 6 to 10 is carrier busy, and the carrier is also transmitted on carrier 1. 6 and uplink control information of carrier 10. The uplink control information of carrier 1 and carrier 2 and the uplink control information of carrier 6 and carrier 10 use different PUCCH resources.
相应的,基站首先在载波6~10上进行DTX检测,均未检测到PUCCH传输,然后在载波1上的两个PUCCH资源上进行DTX检测,第一个PUCCH资源对应了载波1和载波2的上行控制信息,第二种PUCCH资源对应载波6和载波10的上行控制信息,基站在检测到PUCCH传输之后接收对应的上行控制信息。Correspondingly, the base station first performs DTX detection on carriers 6-10, and does not detect PUCCH transmission, and then performs DTX detection on two PUCCH resources on carrier 1, the first PUCCH resource corresponding to carrier 1 and carrier 2. For the uplink control information, the second PUCCH resource corresponds to the uplink control information of the carrier 6 and the carrier 10. The base station receives the corresponding uplink control information after detecting the PUCCH transmission.
如图2所示,本发明实施例第一种终端包括:As shown in FIG. 2, the first terminal of the embodiment of the present invention includes:
第一检测模块200,用于在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;The first detecting module 200 is configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
第一处理模块201,用于若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;The first processing module 201 is configured to determine, if the LBT detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;
传输模块,用于通过PUCCH实际传输载波传输上行控制信息。And a transmission module, configured to transmit uplink control information by using a PUCCH actual transmission carrier.
可选的,所述第一处理模块201还用于:Optionally, the first processing module 201 is further configured to:
若LBT检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述第一处理模块201还用于:
Optionally, the first processing module 201 is further configured to:
若LBT检测失败,将授权载波作为PUCCH实际传输载波。If the LBT detection fails, the licensed carrier is used as the actual transmission carrier of the PUCCH.
可选的,所述第一处理模块201具体用于:Optionally, the first processing module 201 is specifically configured to:
若LBT检测失败,从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波;If the LBT detection fails, the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述预定规则为下列规则中的一个:Optionally, the predetermined rule is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;
LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;
LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
可选的,所述第一处理模块201具体用于:Optionally, the first processing module 201 is specifically configured to:
若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述第一处理模块201具体用于,通过下列方式判断当前是否支持PUCCH切换至授权载波:Optionally, the first processing module 201 is specifically configured to determine, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。Whether the PUCCH handover to the authorized carrier is currently supported is determined by the indication information included in the high layer signaling or the physical layer signaling.
可选的,所述传输模块202具体用于:Optionally, the transmission module 202 is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
若所述PUCCH实际传输载波为授权载波,通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述传输模块202具体用于,Optionally, the transmission module 202 is specifically configured to:
通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:All PUCCH resources on the actual transmission carrier of the PUCCH are determined by some or all of the following ways:
通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by using downlink control indication information, all PUCCH resources on the PUCCH actual transmission carrier;
通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the PUCCH actual transmission carrier;
通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
可选的,所述传输模块202具体用于:Optionally, the transmission module 202 is specifically configured to:
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且不支持PUCCH
和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support PUCCH
Simultaneously transmitting with the PUSCH, the terminal transmits uplink control information through the PUSCH on the actual transmission carrier of the PUCCH.
可选的,所述传输模块202通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。Optionally, the uplink control information that is transmitted by the transmission module 202 through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
如图3所示,本发明实施例第一种网络侧设备包括:As shown in FIG. 3, the first network side device in the embodiment of the present invention includes:
第二检测模块300,用于在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;a second detecting module 300, configured to perform DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;
第二处理模块301,用于若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;The second processing module 301 is configured to determine, if the DTX detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by DTX;
接收模块302,用于通过PUCCH实际传输载波接收终端的上行控制信息。The receiving module 302 is configured to actually transmit uplink control information of the carrier through the PUCCH.
可选的,所述第二处理模块301还用于:Optionally, the second processing module 301 is further configured to:
为所述终端配置PUCCH传输载波。A PUCCH transmission carrier is configured for the terminal.
可选的,所述第二处理模块301还用于:Optionally, the second processing module 301 is further configured to:
若DTX检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述第二处理模块301具体用于:Optionally, the second processing module 301 is specifically configured to:
若DTX检测失败,将授权载波作为PUCCH实际传输载波。If the DTX detection fails, the licensed carrier is used as the actual transmission carrier of the PUCCH.
可选的,所述第二处理模块301具体用于:Optionally, the second processing module 301 is specifically configured to:
若DTX检测失败,对切换载波组中除PUCCH传输载波之外的每个其他非授权载波进行DTX检测;If the DTX detection fails, performing DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
将DTX检测成功的非授权载波作为PUCCH实际传输载波;The unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述第二处理模块301具体用于:Optionally, the second processing module 301 is specifically configured to:
若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述第二处理模块301还用于:Optionally, the second processing module 301 is further configured to:
通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
可选的,所述第二处理模块301具体用于:Optionally, the second processing module 301 is specifically configured to:
为所述终端配置切换载波组。A switching carrier group is configured for the terminal.
可选的,所述接收模块302具体用于:Optionally, the receiving module 302 is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;
If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
若所述PUCCH实际传输载波为授权载波,通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。And if the PUCCH actual transmission carrier is an authorized carrier, the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched. The PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
可选的,所述PUCCH资源为非预定义的资源;Optionally, the PUCCH resource is a non-predefined resource;
所述第二处理模块301还用于:The second processing module 301 is further configured to:
通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Notifying, by the downlink control indication information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal; and/or
通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。Notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
如图4所示,本发明实施例第二种终端包括:As shown in FIG. 4, a second terminal in the embodiment of the present invention includes:
处理器401,用于读取存储器404中的程序,执行下列过程:The processor 401 is configured to read a program in the memory 404 and perform the following process:
在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;利用收发机402通过PUCCH实际传输载波传输上行控制信息。Performing LBT detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the LBT detection fails, determining the PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an LBT detection successful unlicensed carrier Transmitting, by the transceiver 402, the uplink control information is transmitted through the PUCCH actual transmission carrier.
收发机402,用于在处理器401的控制下接收和发送数据。The transceiver 402 is configured to receive and transmit data under the control of the processor 401.
可选的,所述处理器401还用于:Optionally, the processor 401 is further configured to:
若LBT检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述处理器401还用于:Optionally, the processor 401 is further configured to:
若LBT检测失败,将授权载波作为PUCCH实际传输载波。If the LBT detection fails, the licensed carrier is used as the actual transmission carrier of the PUCCH.
可选的,所述处理器401具体用于:Optionally, the processor 401 is specifically configured to:
若LBT检测失败,从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波;If the LBT detection fails, the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述预定规则为下列规则中的一个:Optionally, the predetermined rule is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;
LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;
LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
可选的,所述处理器401具体用于:Optionally, the processor 401 is specifically configured to:
若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述处理器401具体用于,通过下列方式判断当前是否支持PUCCH切换至授权载波:Optionally, the processor 401 is specifically configured to determine, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权
载波。Determine whether the PUCCH switch to the authorization is currently supported by the indication information included in the high layer signaling or the physical layer signaling.
Carrier.
可选的,所述处理器401具体用于:Optionally, the processor 401 is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;
若所述PUCCH实际传输载波为授权载波,通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述处理器401具体用于,Optionally, the processor 401 is specifically configured to:
通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:All PUCCH resources on the actual transmission carrier of the PUCCH are determined by some or all of the following ways:
通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by using downlink control indication information, all PUCCH resources on the PUCCH actual transmission carrier;
通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the PUCCH actual transmission carrier;
通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
可选的,所述处理器401具体用于:Optionally, the processor 401 is specifically configured to:
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support simultaneous transmission of the PUCCH and the PUSCH, the terminal transmits the uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
可选的,所述处理器401通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。Optionally, the uplink control information that is sent by the processor 401 by using the PUCCH to actually transmit the carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
在图4中,总线架构(用总线400来代表),总线400可以包括任意数量的互联的总线和桥,总线400将包括由通用处理器401代表的一个或多个处理器和存储器404代表的存储器的各种电路链接在一起。总线400还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路链接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口403在总线400和收发机402之间提供接口。收发机402可以是一个元件,也可以是多个元件,比如多个接收器和发送器,提供用于在传输介质上与各种其他装置通信的单元。例如:收发机402从其他设备接收外部数据。收发机402用于将处理器401处理后的数据发送给其他设备。取决于计算系统的性质,还可以提供用户接口405,例如小键盘、显示器、扬声器、麦克风、操纵杆。In FIG. 4, a bus architecture (represented by bus 400), which may include any number of interconnected buses and bridges, will include one or more processors and memory 404 represented by general purpose processor 401. The various circuits of the memory are linked together. The bus 400 can also link various other circuits, such as peripherals, voltage regulators, and power management circuits, as is known in the art and, therefore, will not be further described herein. Bus interface 403 provides an interface between bus 400 and transceiver 402. Transceiver 402 can be an element or a plurality of elements, such as a plurality of receivers and transmitters, providing means for communicating with various other devices on a transmission medium. For example, transceiver 402 receives external data from other devices. The transceiver 402 is configured to send the processed data of the processor 401 to other devices. Depending on the nature of the computing system, a user interface 405 can also be provided, such as a keypad, display, speaker, microphone, joystick.
处理器401负责管理总线400和通常的处理,如前述所述运行通用操作系统。而存储器404可以被用于存储处理器401在执行操作时所使用的数据。
The processor 401 is responsible for managing the bus 400 and the usual processing, running a general purpose operating system as described above. The memory 404 can be used to store data used by the processor 401 in performing operations.
可选的,处理器401可以是CPU(中央处埋器)、ASIC(Application Specific Integrated Circuit,专用集成电路)、FPGA(Field-Programmable Gate Array,现场可编程门阵列)或CPLD(Complex Programmable Logic Device,复杂可编程逻辑器件)。Optionally, the processor 401 may be a CPU (Central Embedded Device), an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a CPLD (Complex Programmable Logic Device). , complex programmable logic devices).
如图5所示,本发明实施例第二种网络侧设备包括:As shown in FIG. 5, the second network side device of the embodiment of the present invention includes:
处理器501,用于读取存储器504中的程序,执行下列过程:The processor 501 is configured to read a program in the memory 504 and perform the following process:
在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;利用收发机502通过PUCCH实际传输载波接收终端的上行控制信息。Performing DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the DTX detection fails, determining a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX Using the transceiver 502 to actually transmit the uplink control information of the carrier receiving terminal through the PUCCH.
收发机502,用于在处理器501的控制下接收和发送数据。The transceiver 502 is configured to receive and transmit data under the control of the processor 501.
可选的,所述处理器501还用于:Optionally, the processor 501 is further configured to:
为所述终端配置PUCCH传输载波。A PUCCH transmission carrier is configured for the terminal.
可选的,所述处理器501还用于:Optionally, the processor 501 is further configured to:
若DTX检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
可选的,所述处理器501具体用于:Optionally, the processor 501 is specifically configured to:
若DTX检测失败,将授权载波作为PUCCH实际传输载波。If the DTX detection fails, the licensed carrier is used as the actual transmission carrier of the PUCCH.
可选的,所述处理器501具体用于:Optionally, the processor 501 is specifically configured to:
若DTX检测失败,对切换载波组中除PUCCH传输载波之外的每个其他非授权载波进行DTX检测;If the DTX detection fails, performing DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
将DTX检测成功的非授权载波作为PUCCH实际传输载波;The unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述处理器501具体用于:Optionally, the processor 501 is specifically configured to:
若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
可选的,所述处理器501还用于:Optionally, the processor 501 is further configured to:
通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
可选的,所述处理器501具体用于:Optionally, the processor 501 is specifically configured to:
为所述终端配置切换载波组。A switching carrier group is configured for the terminal.
可选的,所述处理器501具体用于:Optionally, the processor 501 is specifically configured to:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;
If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;
若所述PUCCH实际传输载波为授权载波,通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。And if the PUCCH actual transmission carrier is an authorized carrier, the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched. The PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
可选的,所述PUCCH资源为非预定义的资源;Optionally, the PUCCH resource is a non-predefined resource;
所述处理器501还用于:The processor 501 is further configured to:
通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Notifying, by the downlink control indication information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal; and/or
通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。Notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
在图5中,总线架构(用总线500来代表),总线500可以包括任意数量的互联的总线和桥,总线500将包括由处理器501代表的一个或多个处理器和存储器504代表的存储器的各种电路链接在一起。总线500还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路链接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口503在总线500和收发机502之间提供接口。收发机502可以是一个元件,也可以是多个元件,比如多个接收器和发送器,提供用于在传输介质上与各种其他装置通信的单元。经处理器501处理的数据通过天线505在无线介质上进行传输,进一步,天线505还接收数据并将数据传送给处理器501。In FIG. 5, a bus architecture (represented by bus 500), bus 500 can include any number of interconnected buses and bridges, and bus 500 will include one or more processors represented by processor 501 and memory represented by memory 504. The various circuits are linked together. The bus 500 can also link various other circuits, such as peripherals, voltage regulators, and power management circuits, as is known in the art, and therefore, will not be further described herein. Bus interface 503 provides an interface between bus 500 and transceiver 502. Transceiver 502 can be an element or a plurality of elements, such as multiple receivers and transmitters, providing means for communicating with various other devices on a transmission medium. Data processed by processor 501 is transmitted over wireless medium via antenna 505. Further, antenna 505 also receives the data and transmits the data to processor 501.
处理器501负责管理总线500和通常的处理,还可以提供各种功能,包括定时,外围接口,电压调节、电源管理以及其他控制功能。而存储器504可以被用于存储处理器501在执行操作时所使用的数据。The processor 501 is responsible for managing the bus 500 and the usual processing, and can also provide various functions including timing, peripheral interfaces, voltage regulation, power management, and other control functions. The memory 504 can be used to store data used by the processor 501 when performing operations.
可选的,处理器501可以是CPU、ASIC、FPGA或CPLD。Optionally, the processor 501 can be a CPU, an ASIC, an FPGA, or a CPLD.
基于同一发明构思,本发明实施例中还提供了一种终端侧传输上行控制信息的方法,由于该方法对应的设备是本发明实施例传输上行控制信息的系统中的终端,并且该方法解决问题的原理与该系统相似,因此该方法的实施可以参见系统的实施,重复之处不再赘述。Based on the same inventive concept, the embodiment of the present invention further provides a method for transmitting uplink control information by a terminal, where the device corresponding to the method is a terminal in a system for transmitting uplink control information according to an embodiment of the present invention, and the method solves the problem. The principle is similar to the system, so the implementation of the method can be referred to the implementation of the system, and the repeated description will not be repeated.
如图6所示,本发明实施例终端侧传输上行控制信息的方法包括:As shown in FIG. 6, the method for transmitting uplink control information on the terminal side of the embodiment of the present invention includes:
步骤600、终端在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;Step 600: The terminal performs LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier.
步骤601、若LBT检测失败,则所述终端确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;Step 601: If the LBT detection fails, the terminal determines the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier with successful LBT detection;
步骤602、所述终端通过PUCCH实际传输载波传输上行控制信息。Step 602: The terminal transmits uplink control information by using a PUCCH actual transmission carrier.
可选的,所述终端在PUCCH传输载波上进行LBT检测之后,还包括:Optionally, after performing the LBT detection on the PUCCH transmission carrier, the terminal further includes:
若LBT检测成功,则所述终端将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the terminal uses the PUCCH transmission carrier as a PUCCH actual transmission carrier.
可选的,所述终端确定PUCCH实际传输载波,包括:Optionally, the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
若LBT检测失败,所述终端将授权载波作为PUCCH实际传输载波。
If the LBT detection fails, the terminal uses the licensed carrier as the actual transmission carrier of the PUCCH.
可选的,所述终端确定PUCCH实际传输载波,包括:Optionally, the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
若LBT检测失败,所述终端从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波;If the LBT detection fails, the terminal selects an unlicensed carrier that satisfies a predetermined rule from the switching carrier group and the LBT detection succeeds as the PUCCH actual transmission carrier;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述预定规则为下列规则中的一个:Optionally, the predetermined rule is one of the following rules:
LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;
LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;
LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
可选的,所述终端确定PUCCH实际传输载波,包括:Optionally, the terminal determines, by the terminal, the actual transmission carrier of the PUCCH, including:
若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则所述终端将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the terminal uses the authorized carrier as the PUCCH actual transmission carrier.
可选的,所述终端通过下列方式判断当前是否支持PUCCH切换至授权载波:Optionally, the terminal determines, by using the following manner, whether the PUCCH is currently switched to the authorized carrier:
所述终端通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。The terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
可选的,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:Optionally, the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,所述终端通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the terminal transmits the uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;
若所述PUCCH实际传输载波为授权载波,所述终端通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the terminal transmits uplink control information by using a PUCCH resource for transmitting uplink control information of the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein, the authorized carrier is used. The PUCCH resource for transmitting the unlicensed carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述终端通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:Optionally, the terminal determines, by using part or all of the following manners, all PUCCH resources on the PUCCH actual transmission carrier:
所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH;
所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH;
所述终端通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。The terminal determines, by using predefined configuration information, all PUCCH resources on the PUCCH actual transmission carrier.
可选的,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:Optionally, the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUCCH传输上
行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH transmission simultaneously, the terminal transmits the PUCCH on the carrier through the PUCCH actual transmission.
Line control information; or
若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
可选的,所述终端通过PUCCH实际传输载波传输的上行控制信息包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。Optionally, the uplink control information that is transmitted by the terminal through the PUCCH actual transmission carrier includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
基于同一发明构思,本发明实施例中还提供了一种网络侧传输上行控制信息的方法,由于该方法对应的设备是本发明实施例传输上行控制信息的系统中的网络侧设备,并且该方法解决问题的原理与该系统相似,因此该方法的实施可以参见系统的实施,重复之处不再赘述。Based on the same inventive concept, the embodiment of the present invention further provides a method for transmitting uplink control information on the network side, where the device corresponding to the method is a network side device in a system for transmitting uplink control information according to an embodiment of the present invention, and the method The principle of solving the problem is similar to that of the system, so the implementation of the method can be referred to the implementation of the system, and the repeated description will not be repeated.
如图7所示,本发明实施例网络侧传输上行控制信息的方法包括:As shown in FIG. 7, the method for transmitting uplink control information on the network side of the embodiment of the present invention includes:
步骤700、网络侧设备在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;Step 700: The network side device performs DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier.
步骤701、若DTX检测失败,则所述网络侧设备确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;Step 701: If the DTX detection fails, the network side device determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;
步骤702、所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息。Step 702: The network side device actually transmits uplink control information of the carrier through the PUCCH.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:Optionally, before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
所述网络侧设备为所述终端配置PUCCH传输载波。The network side device configures a PUCCH transmission carrier for the terminal.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之后,还包括:Optionally, after performing the DTX detection on the PUCCH transmission carrier, the network side device further includes:
若DTX检测成功,则所述网络侧设备将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the network side device uses the PUCCH transmission carrier as the PUCCH actual transmission carrier.
可选的,所述网络侧设备确定PUCCH实际传输载波,包括:Optionally, the network side device determines the PUCCH actual transmission carrier, including:
若DTX检测失败,所述网络侧设备将授权载波作为PUCCH实际传输载波。If the DTX detection fails, the network side device uses the authorized carrier as the PUCCH actual transmission carrier.
可选的,所述网络侧设备确定PUCCH实际传输载波,包括:Optionally, the network side device determines the PUCCH actual transmission carrier, including:
若DTX检测失败,所述网络侧设备对切换载波组中除PUCCH传输载波之外的每个其他非授权载波进行DTX检测;If the DTX detection fails, the network side device performs DTX detection on each of the other unlicensed carriers except the PUCCH transmission carrier in the handover carrier group;
所述网络侧设备将DTX检测成功的非授权载波作为PUCCH实际传输载波;The network side device uses the unlicensed carrier that is successfully detected by the DTX as the actual transmission carrier of the PUCCH;
其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
可选的,所述网络侧设备确定PUCCH实际传输载波,包括:Optionally, the network side device determines the PUCCH actual transmission carrier, including:
若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则所述网络侧设备将授权载波作为PUCCH实际传输载波。If the switching carrier group does not have an unlicensed carrier that is successfully detected by the DTX, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the network side device actually transmits the authorized carrier as the PUCCH. Carrier.
可选的,该方法还包括:
Optionally, the method further includes:
所述网络侧设备通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。The network side device indicates, by using high layer signaling or physical layer signaling, whether the terminal currently supports PUCCH handover to the authorized carrier.
可选的,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:Optionally, before the performing, by the network side device, the DTX detection on the PUCCH transmission carrier, the method further includes:
所述网络侧设备为所述终端配置切换载波组。The network side device configures a switching carrier group for the terminal.
可选的,所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息,包括:Optionally, the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, including:
若所述PUCCH实际传输载波为DTX检测成功的非授权载波,所述网络侧设备通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;If the PUCCH actual transmission carrier is an unlicensed carrier that is successfully detected by the DTX, the network side device reserves, by using the unlicensed carrier in the handover carrier group, a PUCCH resource for transmitting uplink control information, and the receiving terminal Uplink control information;
若所述PUCCH实际传输载波为授权载波,所述网络侧设备通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the PUCCH actual transmission carrier is an authorized carrier, the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting the uplink control information of the unlicensed carrier handover for the terminal, where the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
可选的,所述PUCCH资源为非预定义的资源;Optionally, the PUCCH resource is a non-predefined resource;
所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息之前,还包括:Before the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, the network side device further includes:
所述终端通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Transmitting, by the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal; and/or
所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
从上述内容可知:本发明实施例终端在PUCCH传输载波上进行LBT检测失败后,可以确定PUCCH实际传输载波,并通过PUCCH实际传输载波传输上行控制信息,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波。由于本发明实施例终端可以确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波,从而可以切换到其它LBT检测成功的非授权载波或者授权载波传输上行控制信息,避免了由于抢占不到信道导致上行控制信息无法及时正确传输的情况发生;进一步提高了系统性。It can be seen from the above that after the LBT detection fails on the PUCCH transmission carrier, the terminal can determine the actual transmission carrier of the PUCCH, and transmit the uplink control information by using the PUCCH actual transmission carrier, where the actual transmission carrier of the PUCCH is an authorized carrier or The LBT detects a successful unlicensed carrier. In the embodiment of the present invention, the terminal may determine the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT, so that the unlicensed carrier that is successfully detected by other LBTs or the uplink transmission of the authorized carrier may be switched. The information avoids the situation that the uplink control information cannot be correctly transmitted in time due to the preemption of the channel; further improving the system.
以上参照示出根据本申请实施例的方法、装置(系统)和/或计算机程序产品的框图和/或流程图描述本申请。应理解,可以通过计算机程序指令来实现框图和/或流程图示图的一个块以及框图和/或流程图示图的块的组合。可以将这些计算机程序指令提供给通用计算机、专用计算机的处理器和/或其它可编程数据处理装置,以产生机器,使得经由计算机处理器和/或其它可编程数据处理装置执行的指令创建用于实现框图和/或流程图块中所指定的功能/动作的方法。The present application has been described above with reference to block diagrams and/or flowchart illustrations of a method, apparatus (system) and/or computer program product according to embodiments of the present application. It will be understood that one block of the block diagrams and/or flowchart illustrations and combinations of blocks of the block diagrams and/or flowchart illustrations can be implemented by computer program instructions. These computer program instructions may be provided to a general purpose computer, a processor of a special purpose computer, and/or other programmable data processing apparatus to produce a machine such that instructions for execution via a computer processor and/or other programmable data processing apparatus are created for A method of implementing the functions/actions specified in the block diagrams and/or flowchart blocks.
相应地,还可以用硬件和/或软件(包括固件、驻留软件、微码等)来实施本申请。更进一步地,本申请可以采取计算机可使用或计算机可读存储介质上的计算机程序产品的形
式,其具有在介质中实现的计算机可使用或计算机可读程序代码,以由指令执行系统来使用或结合指令执行系统而使用。在本申请上下文中,计算机可使用或计算机可读介质可以是任意介质,其可以包含、存储、通信、传输、或传送程序,以由指令执行系统、装置或设备使用,或结合指令执行系统、装置或设备使用。Accordingly, the application can also be implemented in hardware and/or software (including firmware, resident software, microcode, etc.). Still further, the application can take the form of a computer program product on a computer usable or computer readable storage medium.
A computer-usable or computer readable program code embodied in a medium for use by or in connection with an instruction execution system. In the context of the present application, a computer usable or computer readable medium can be any medium that can contain, store, communicate, communicate, or transport a program for use by an instruction execution system, apparatus or device, or in conjunction with an instruction execution system, Used by the device or device.
显然,本领域的技术人员可以对本发明进行各种改动和变型而不脱离本发明的精神和范围。这样,倘若本发明的这些修改和变型属于本发明权利要求及其等同技术的范围之内,则本发明也意图包含这些改动和变型在内。
It is apparent that those skilled in the art can make various modifications and variations to the invention without departing from the spirit and scope of the invention. Thus, it is intended that the present invention cover the modifications and modifications of the invention
Claims (40)
- 一种传输上行控制信息的方法,其特征在于,该方法包括:A method for transmitting uplink control information, the method comprising:终端在物理上行控制信道PUCCH传输载波上进行先听后讲LBT检测,其中所述PUCCH传输载波为非授权载波;The terminal performs LBT detection on the physical uplink control channel PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;若LBT检测失败,则所述终端确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;If the LBT detection fails, the terminal determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;所述终端通过PUCCH实际传输载波传输上行控制信息。The terminal transmits uplink control information by using a PUCCH actual transmission carrier.
- 如权利要求1所述的方法,其特征在于,所述终端在PUCCH传输载波上进行LBT检测之后,还包括:The method of claim 1, after the terminal performs LBT detection on the PUCCH transmission carrier, the method further includes:若LBT检测成功,则所述终端将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the terminal uses the PUCCH transmission carrier as a PUCCH actual transmission carrier.
- 如权利要求1所述的方法,其特征在于,当所述PUCCH实际传输载波为LBT检测成功的非授权载波时,所述PUCCH实际传输载波为从切换载波组中选择的满足预定规则的载波,其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The method according to claim 1, wherein when the PUCCH actual transmission carrier is an unlicensed carrier whose LBT detection succeeds, the PUCCH actual transmission carrier is a carrier that satisfies a predetermined rule selected from the switching carrier group, The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- 如权利要求3所述的方法,其特征在于,所述预定规则为下列规则中的一个:The method of claim 3 wherein said predetermined rule is one of the following rules:LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
- 如权利要求3所述的方法,其特征在于,所述终端确定PUCCH实际传输载波,包括:The method of claim 3, wherein the determining, by the terminal, the actual transmission carrier of the PUCCH comprises:若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则所述终端将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the terminal uses the authorized carrier as the PUCCH actual transmission carrier.
- 如权利要求5所述的方法,其特征在于,所述终端通过下列方式判断当前是否支持PUCCH切换至授权载波:The method according to claim 5, wherein the terminal determines whether the PUCCH is currently switched to the authorized carrier by:所述终端通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。The terminal determines whether the PUCCH is currently switched to the authorized carrier by using the indication information included in the high layer signaling or the physical layer signaling.
- 如权利要求1所述的方法,其特征在于,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:The method according to claim 1, wherein the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:若所述PUCCH实际传输载波为LBT检测成功的非授权载波,所述终端通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the LBT, the terminal transmits uplink control information by using the PUCCH resource on the actual transmission carrier of the PUCCH;若所述PUCCH实际传输载波为授权载波,所述终端通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中, 所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the terminal transmits the uplink control information by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; The PUCCH resource for transmitting the unlicensed carrier on the authorized carrier and the handover PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- 如权利要求7所述的方法,其特征在于,所述终端通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:The method according to claim 7, wherein the terminal determines all PUCCH resources on the PUCCH actual transmission carrier by part or all of the following manners:所述终端通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the downlink control indication information, all PUCCH resources on the actual transmission carrier of the PUCCH;所述终端通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the actual transmission carrier of the PUCCH;所述终端通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。The terminal determines, by using predefined configuration information, all PUCCH resources on the PUCCH actual transmission carrier.
- 如权利要求1~8任一所述的方法,其特征在于,所述终端通过PUCCH实际传输载波传输上行控制信息,包括:The method according to any one of claims 1 to 8, wherein the terminal transmits uplink control information by using a PUCCH actual transmission carrier, including:若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和物理上行链路共享信道PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports the PUCCH and the physical uplink shared channel PUSCH to be simultaneously transmitted, the terminal transmits the uplink control through the PUCCH on the PUCCH actual transmission carrier. Information; or若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal does not support PUCCH and PUSCH simultaneous transmission, the terminal transmits uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- 如权利要求1~8任一所述的方法,其特征在于,所述终端通过PUCCH实际传输载波传输的上行控制信息,包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。The method according to any one of claims 1 to 8, wherein the terminal actually transmits uplink control information of the carrier transmission through the PUCCH, and includes uplink control information of all carriers in the carrier group to which the PUCCH actual transmission carrier belongs.
- 一种传输上行控制信息的方法,其特征在于,该方法包括:A method for transmitting uplink control information, the method comprising:网络侧设备在PUCCH传输载波上进行不连续发送DTX检测,其中所述PUCCH传输载波为非授权载波;The network side device performs discontinuous transmission DTX detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;若DTX检测失败,则所述网络侧设备确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;If the DTX detection fails, the network side device determines a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息。The network side device actually transmits the uplink control information of the carrier through the PUCCH.
- 如权利要求11所述的方法,其特征在于,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:The method of claim 11, wherein the network side device further comprises: before performing DTX detection on the PUCCH transmission carrier,所述网络侧设备为所述终端配置PUCCH传输载波。The network side device configures a PUCCH transmission carrier for the terminal.
- 如权利要求11所述的方法,其特征在于,所述网络侧设备在PUCCH传输载波上进行DTX检测之后,还包括:The method according to claim 11, wherein after the network side device performs DTX detection on the PUCCH transmission carrier, the method further includes:若DTX检测成功,则所述网络侧设备将所述PUCCH传输载波作为PUCCH实际传输 载波。If the DTX detection is successful, the network side device actually transmits the PUCCH transmission carrier as a PUCCH. Carrier.
- 如权利要求11所述的方法,其特征在于,所述网络侧设备确定PUCCH实际传输载波,包括:The method according to claim 11, wherein the network side device determines the PUCCH actual transmission carrier, including:若DTX检测失败,所述网络侧设备对切换载波组中除PUCCH传输载波之外的每个非授权载波进行DTX检测;If the DTX detection fails, the network side device performs DTX detection on each unlicensed carrier except the PUCCH transmission carrier in the handover carrier group;所述网络侧设备将DTX检测成功的非授权载波作为PUCCH实际传输载波;The network side device uses the unlicensed carrier that is successfully detected by the DTX as the actual transmission carrier of the PUCCH;其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- 如权利要求14所述的方法,其特征在于,所述网络侧设备确定PUCCH实际传输载波,还包括:The method according to claim 14, wherein the network side device determines the actual transmission carrier of the PUCCH, and further includes:若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则所述网络侧设备将授权载波作为PUCCH实际传输载波。If the switching carrier group does not have an unlicensed carrier that is successfully detected by the DTX, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the network side device actually transmits the authorized carrier as the PUCCH. Carrier.
- 如权利要求15所述的方法,其特征在于,该方法还包括:The method of claim 15 further comprising:所述网络侧设备通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。The network side device indicates, by using high layer signaling or physical layer signaling, whether the terminal currently supports PUCCH handover to the authorized carrier.
- 如权利要求14所述的方法,其特征在于,所述网络侧设备在PUCCH传输载波上进行DTX检测之前,还包括:The method of claim 14, wherein the network side device further comprises: before performing DTX detection on the PUCCH transmission carrier,所述网络侧设备为所述终端配置切换载波组。The network side device configures a switching carrier group for the terminal.
- 如权利要求14所述的方法,其特征在于,所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息,包括:The method according to claim 14, wherein the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, including:若所述PUCCH实际传输载波为LBT检测成功的非授权载波,所述网络侧设备通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the LBT, the network side device reserves, by using the unlicensed carrier in the handover carrier group, a PUCCH resource for transmitting uplink control information, and the receiving terminal Uplink control information;若所述PUCCH实际传输载波为授权载波,所述网络侧设备通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the PUCCH actual transmission carrier is an authorized carrier, the network side device reserves, by using the authorized carrier, a PUCCH resource for transmitting the uplink control information of the unlicensed carrier handover for the terminal, where the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- 如权利要求18所述的方法,其特征在于,所述PUCCH资源为非预定义的资源;The method of claim 18, wherein the PUCCH resource is a non-predefined resource;所述网络侧设备通过PUCCH实际传输载波接收终端的上行控制信息之前,还包括:Before the network side device actually transmits the uplink control information of the carrier receiving terminal by using the PUCCH, the network side device further includes:所述终端通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Transmitting, by the downlink control indication information, the PUCCH resource on the actual transmission carrier of the PUCCH by the terminal; and/or所述网络侧设备通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。 The network side device notifies the terminal of the PUCCH resource on the PUCCH actual transmission carrier by using the high layer signaling configuration information.
- 一种传输上行控制信息的终端,其特征在于,该终端包括:A terminal for transmitting uplink control information, where the terminal includes:第一检测模块,用于在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;a first detecting module, configured to perform LBT detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;第一处理模块,用于若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;a first processing module, configured to determine, if the LBT detection fails, the actual transmission carrier of the PUCCH, where the actual transmission carrier of the PUCCH is an authorized carrier or an unlicensed carrier that is successfully detected by the LBT;传输模块,用于通过PUCCH实际传输载波传输上行控制信息。And a transmission module, configured to transmit uplink control information by using a PUCCH actual transmission carrier.
- 如权利要求20所述的终端,其特征在于,所述第一处理模块还用于:The terminal according to claim 20, wherein the first processing module is further configured to:若LBT检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the LBT detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- 如权利要求20所述的终端,其特征在于,所述第一处理模块具体用于:The terminal according to claim 20, wherein the first processing module is specifically configured to:若LBT检测失败,从切换载波组中选择满足预定规则,且LBT检测成功的非授权载波作为PUCCH实际传输载波;If the LBT detection fails, the unlicensed carrier that satisfies the predetermined rule and the LBT detection succeeds is selected as the PUCCH actual transmission carrier from the switching carrier group;其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- 如权利要求22所述的终端,其特征在于,所述预定规则为下列规则中的一个:The terminal of claim 22, wherein the predetermined rule is one of the following rules:LBT检测成功的非授权载波中载波序号最小的;The carrier number of the unlicensed carrier that is successfully detected by the LBT is the smallest;LBT检测成功的非授权载波中优先级最高的;The highest priority among the unlicensed carriers that the LBT detects successfully;LBT检测成功的非授权载波中随机挑选。Random selection of unlicensed carriers for successful LBT detection.
- 如权利要求22所述的终端,其特征在于,所述第一处理模块还用于:The terminal according to claim 22, wherein the first processing module is further configured to:若所述切换载波组中没有LBT检测成功的非授权载波,且所述切换载波组中包括授权载波,且当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group that is successfully detected by the LBT, and the switching carrier group includes the authorized carrier, and the PUCCH is currently switched to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
- 如权利要求24所述的终端,其特征在于,所述第一处理模块通过下列方式判断当前是否支持PUCCH切换至授权载波:The terminal according to claim 24, wherein the first processing module determines whether the PUCCH is currently switched to the authorized carrier by:通过高层信令或物理层信令包含的指示信息,判断当前是否支持PUCCH切换至授权载波。Whether the PUCCH handover to the authorized carrier is currently supported is determined by the indication information included in the high layer signaling or the physical layer signaling.
- 如权利要求20所述的终端,其特征在于,所述传输模块具体用于:The terminal according to claim 20, wherein the transmission module is specifically configured to:若所述PUCCH实际传输载波为LBT检测成功的非授权载波,通过所述PUCCH实际传输载波上的PUCCH资源传输上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the LBT, the uplink control information is transmitted by using the PUCCH resource on the actual transmission carrier of the PUCCH;若所述PUCCH实际传输载波为授权载波,通过所述PUCCH实际传输载波上的用于传输非授权载波切换的上行控制信息的PUCCH资源传输上行控制信息;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。If the actual transmission carrier of the PUCCH is an authorized carrier, the uplink control information is transmitted by using the PUCCH resource of the uplink control information for transmitting the unlicensed carrier handover on the actual transmission carrier of the PUCCH; wherein the authorized carrier is used for transmitting the non-transmission The PUCCH resource of the licensed carrier and the switched PUCCH resource and the uplink control information for transmitting the authorized carrier are the same or different.
- 如权利要求26所述的终端,其特征在于,所述传输模块通过下列方式中的部分或全部确定所述PUCCH实际传输载波上的所有PUCCH资源:The terminal according to claim 26, wherein the transmission module determines all PUCCH resources on the PUCCH actual transmission carrier by part or all of the following manners:通过下行控制指示信息确定所述PUCCH实际传输载波上的所有PUCCH资源; Determining, by using downlink control indication information, all PUCCH resources on the PUCCH actual transmission carrier;通过高层信令配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源;Determining, by the high layer signaling configuration information, all PUCCH resources on the PUCCH actual transmission carrier;通过预先定义的配置信息确定所述PUCCH实际传输载波上的所有PUCCH资源。All PUCCH resources on the PUCCH actual transmission carrier are determined by pre-defined configuration information.
- 如权利要求20~27任一所述的终端,其特征在于,所述传输模块通过PUCCH实际传输载波传输上行控制信息,具体包括:The terminal according to any one of claims 20 to 27, wherein the transmission module transmits uplink control information by using a PUCCH actual transmission carrier, which specifically includes:若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且所述终端支持PUCCH和PUSCH同时传输,则通过PUCCH实际传输载波上的PUCCH传输上行控制信息;或If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and the terminal supports PUCCH and PUSCH simultaneous transmission, transmitting uplink control information by using a PUCCH on a PUCCH actual transmission carrier; or若所述终端在所述PUCCH实际传输载波上被调度传输上行数据,且不支持PUCCH和PUSCH同时传输,则所述终端通过PUCCH实际传输载波上的PUSCH传输上行控制信息。If the terminal is scheduled to transmit uplink data on the PUCCH actual transmission carrier, and does not support simultaneous transmission of the PUCCH and the PUSCH, the terminal transmits the uplink control information by using the PUSCH on the PUCCH actual transmission carrier.
- 如权利要求20~27任一所述的终端,其特征在于,所述通过PUCCH实际传输载波传输的上行控制信息,包括所述PUCCH实际传输载波所属的载波组中所有载波的上行控制信息。The terminal according to any one of claims 20 to 27, wherein the uplink control information that is actually transmitted by the carrier through the PUCCH includes uplink control information of all carriers in the carrier group to which the actual transmission carrier of the PUCCH belongs.
- 一种传输上行控制信息的网络侧设备,其特征在于,该网络侧设备包括:A network side device that transmits uplink control information, where the network side device includes:第二检测模块,用于在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;a second detecting module, configured to perform DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier;第二处理模块,用于若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;a second processing module, configured to determine a PUCCH actual transmission carrier if the DTX detection fails, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX;接收模块,用于通过PUCCH实际传输载波接收终端的上行控制信息。The receiving module is configured to actually transmit uplink control information of the carrier through the PUCCH.
- 如权利要求30所述的网络侧设备,其特征在于,所述第二处理模块还用于:The network side device according to claim 30, wherein the second processing module is further configured to:为所述终端配置PUCCH传输载波。A PUCCH transmission carrier is configured for the terminal.
- 如权利要求30所述的网络侧设备,其特征在于,所述第二处理模块还用于:The network side device according to claim 30, wherein the second processing module is further configured to:若DTX检测成功,则将所述PUCCH传输载波作为PUCCH实际传输载波。If the DTX detection is successful, the PUCCH transmission carrier is used as the PUCCH actual transmission carrier.
- 如权利要求30所述的网络侧设备,其特征在于,所述第二处理模块具体用于:The network side device according to claim 30, wherein the second processing module is specifically configured to:若DTX检测失败,对切换载波组中除PUCCH传输载波之外的每个非授权载波进行DTX检测;If the DTX detection fails, performing DTX detection on each unlicensed carrier except the PUCCH transmission carrier in the handover carrier group;将DTX检测成功的非授权载波作为PUCCH实际传输载波;The unlicensed carrier that successfully detects the DTX is used as the actual transmission carrier of the PUCCH;其中,所述切换载波组中包括PUCCH传输载波和至少一个其他非授权载波。The switching carrier group includes a PUCCH transmission carrier and at least one other unlicensed carrier.
- 如权利要求33所述的网络侧设备,其特征在于,所述第二处理模块还用于:The network side device according to claim 33, wherein the second processing module is further configured to:若所述切换载波组中没有DTX检测成功的非授权载波,且所述切换载波组中包括授权载波,且终端当前支持PUCCH切换至授权载波,则将授权载波作为PUCCH实际传输载波。If there is no unlicensed carrier in the switching carrier group, and the switching carrier group includes the authorized carrier, and the terminal currently supports the PUCCH handover to the authorized carrier, the authorized carrier is used as the PUCCH actual transmission carrier.
- 如权利要求34所述的网络侧设备,其特征在于,所述第二处理模块还用于: The network side device according to claim 34, wherein the second processing module is further configured to:通过高层信令或物理层信令指示终端当前是否支持PUCCH切换至授权载波。Whether the terminal currently supports PUCCH handover to the authorized carrier is indicated by higher layer signaling or physical layer signaling.
- 如权利要求33所述的网络侧设备,其特征在于,所述第二处理模块在第二检测模块在PUCCH传输载波上进行DTX检测之前,还用于:The network side device according to claim 33, wherein the second processing module is further configured to: before the second detecting module performs DTX detection on the PUCCH transmission carrier:为所述终端配置切换载波组。A switching carrier group is configured for the terminal.
- 如权利要求33所述的网络侧设备,其特征在于,所述接收模块具体用于:The network side device according to claim 33, wherein the receiving module is specifically configured to:若所述PUCCH实际传输载波为DTX检测成功的非授权载波,通过所述切换载波组中的非授权载波上为终端预留用于传输上行控制信息的PUCCH资源,接收终端的上行控制信息;If the actual transmission carrier of the PUCCH is an unlicensed carrier that is successfully detected by the DTX, the PUCCH resource used for transmitting the uplink control information is reserved for the terminal on the unlicensed carrier in the handover carrier group, and the uplink control information of the terminal is received;若所述PUCCH实际传输载波为授权载波,通过授权载波上为终端预留用于传输非授权载波切换的上行控制信息的PUCCH资源;其中,所述授权载波上用于传输非授权载波且切换的PUCCH资源和用于传输授权载波的上行控制信息的PUCCH资源相同或者不同。And if the PUCCH actual transmission carrier is an authorized carrier, the PUCCH resource for transmitting the uplink control information for the unlicensed carrier handover is reserved for the terminal by using the authorized carrier, where the authorized carrier is used for transmitting the unlicensed carrier and is switched. The PUCCH resource is the same as or different from the PUCCH resource used to transmit the uplink control information of the licensed carrier.
- 如权利要求37所述的网络侧设备,其特征在于,所述PUCCH资源为非预定义的资源;The network side device according to claim 37, wherein the PUCCH resource is a non-predefined resource;所述第二处理模块还用于:The second processing module is further configured to:通过下行控制指示信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源;和/或Notifying, by the downlink control indication information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal; and/or通过高层信令配置信息通知所述终端所述PUCCH实际传输载波上的PUCCH资源。Notifying, by the high layer signaling configuration information, the PUCCH resource on the PUCCH actual transmission carrier of the terminal.
- 一种终端,其特征在于,包括:A terminal, comprising:处理器,用于读取存储器中的程序,执行下列过程:A processor for reading a program in the memory, performing the following process:在PUCCH传输载波上进行LBT检测,其中所述PUCCH传输载波为非授权载波;若LBT检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或LBT检测成功的非授权载波;利用收发机通过PUCCH实际传输载波传输上行控制信息;Performing LBT detection on the PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the LBT detection fails, determining the PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an LBT detection successful unlicensed carrier Transmitting the uplink control information by using the transceiver to actually transmit the carrier through the PUCCH;收发机,用于在处理器的控制下接收和发送数据。A transceiver for receiving and transmitting data under the control of a processor.
- 一种网络侧设备,其特征在于,包括:A network side device, comprising:处理器,用于读取存储器中的程序,执行下列过程:A processor for reading a program in the memory, performing the following process:在PUCCH传输载波上进行DTX检测,其中所述PUCCH传输载波为非授权载波;若DTX检测失败,则确定PUCCH实际传输载波,其中所述PUCCH实际传输载波为授权载波或DTX检测成功的非授权载波;利用收发机通过PUCCH实际传输载波接收终端的上行控制信息;Performing DTX detection on a PUCCH transmission carrier, where the PUCCH transmission carrier is an unlicensed carrier; if the DTX detection fails, determining a PUCCH actual transmission carrier, where the PUCCH actual transmission carrier is an authorized carrier or an unlicensed carrier successfully detected by DTX Transmitting the uplink control information of the carrier receiving terminal through the PUCCH by using the transceiver;收发机,用于在处理器的控制下接收和发送数据。 A transceiver for receiving and transmitting data under the control of a processor.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610073606.7 | 2016-02-02 | ||
CN201610073606.7A CN107026723B (en) | 2016-02-02 | 2016-02-02 | Method and equipment for transmitting uplink control information |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2017133445A1 true WO2017133445A1 (en) | 2017-08-10 |
Family
ID=59499334
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/CN2017/071429 WO2017133445A1 (en) | 2016-02-02 | 2017-01-17 | Method and device for transmitting uplink control information |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN107026723B (en) |
WO (1) | WO2017133445A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109417799A (en) * | 2018-09-28 | 2019-03-01 | 北京小米移动软件有限公司 | Control instruction transmission method, base station, terminal and storage medium |
US20220183060A1 (en) * | 2019-04-29 | 2022-06-09 | Apple Inc. | Uplink (UL) Transmission in Wideband Carrier and Carrier Aggregation in NR Systems Operating on Unlicensed Spectrum |
Families Citing this family (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019041150A1 (en) * | 2017-08-30 | 2019-03-07 | 深圳市大疆创新科技有限公司 | Channel switching method and apparatus, and communication device |
CN109600748B (en) * | 2017-09-30 | 2021-08-13 | 华为技术有限公司 | Method and apparatus for transitioning from unauthorized-based transmission to authorized-based transmission |
CN109905215B (en) * | 2017-12-08 | 2021-04-23 | 电信科学技术研究院 | Transmission method and device |
CN109995464B (en) * | 2017-12-29 | 2021-10-26 | 普天信息技术有限公司 | Detection processing method and device, electronic equipment and storage medium |
CN110234164B (en) * | 2018-03-06 | 2023-02-03 | 华为技术有限公司 | Method and apparatus for determining control channel position and processor readable storage medium |
JP7162736B2 (en) * | 2018-06-26 | 2022-10-28 | オッポ広東移動通信有限公司 | UPLINK SIGNAL TRANSMISSION METHOD, TERMINAL DEVICE, NETWORK DEVICE |
US11184776B2 (en) * | 2018-07-16 | 2021-11-23 | Kt Corporation | Method and apparatus for performing wireless communication in unlicensed band |
EP3876651B1 (en) * | 2018-11-01 | 2023-11-01 | Beijing Xiaomi Mobile Software Co., Ltd. | Contention random access method and device |
JP7388437B2 (en) * | 2019-01-09 | 2023-11-29 | 富士通株式会社 | Uplink control information transmission/reception method and device |
CN111294883B (en) * | 2019-01-31 | 2021-12-14 | 展讯通信(上海)有限公司 | Cell reselection method and device, storage medium and user terminal |
CN111316576A (en) * | 2019-02-28 | 2020-06-19 | 深圳市大疆创新科技有限公司 | Unmanned aerial vehicle communication method and unmanned aerial vehicle |
US20220216957A1 (en) * | 2019-05-24 | 2022-07-07 | Beijing Xiaomi Mobile Software Co., Ltd. | Method and device for carrier aggregation, communication apparatus, and storage medium |
CN111835487B (en) * | 2019-08-13 | 2022-07-01 | 维沃移动通信有限公司 | Information processing method and device and computer readable storage medium |
WO2021179221A1 (en) * | 2020-03-11 | 2021-09-16 | Oppo广东移动通信有限公司 | Data transmission method and apparatus, and device and storage medium |
CN115315017A (en) * | 2021-05-06 | 2022-11-08 | 展讯通信(上海)有限公司 | Resource processing method, equipment, medium, chip and chip module |
CN115334659A (en) * | 2021-05-11 | 2022-11-11 | 大唐移动通信设备有限公司 | Information confirmation method and device and communication equipment |
WO2023010481A1 (en) * | 2021-08-05 | 2023-02-09 | Nec Corporation | Methods, devices and computer storage media for communication |
CN118251960A (en) * | 2022-10-25 | 2024-06-25 | 北京小米移动软件有限公司 | Method and device for processing continuous listen-before-talk failure of side link |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20150098397A1 (en) * | 2013-10-04 | 2015-04-09 | Qualcomm Incorporated | Techniques for assessing clear channel in an unlicensed radio frequency spectrum band |
CN104540230A (en) * | 2015-01-30 | 2015-04-22 | 深圳酷派技术有限公司 | Uplink scheduling method and uplink scheduling device |
CN104796920A (en) * | 2014-01-16 | 2015-07-22 | 电信科学技术研究院 | Data transmission method, base station and terminal equipment |
CN105101446A (en) * | 2015-06-30 | 2015-11-25 | 宇龙计算机通信科技(深圳)有限公司 | Conflict avoiding method and device for unlicensed bands |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101938726B (en) * | 2009-07-01 | 2013-01-23 | 鼎桥通信技术有限公司 | Uplink signaling transmission method and uplink resource allocation method |
US20130083766A1 (en) * | 2010-06-22 | 2013-04-04 | Lg Electronics Inc. | Method and device for transmitting and receiving uplink control information in wireless communication system that supports multiple carriers |
CN102045827B (en) * | 2011-01-06 | 2013-07-31 | 大唐移动通信设备有限公司 | Uplink power control method, power control parameter configuration method and equipment of methods |
CN104081704A (en) * | 2011-11-10 | 2014-10-01 | 瑞典爱立信有限公司 | Network node, user equipment and method thereof for transmitting control information on physical uplink control channel |
CN105230095B (en) * | 2014-01-29 | 2020-01-10 | 华为技术有限公司 | Uplink control channel transmission method, device and system |
CN105207754B (en) * | 2014-05-30 | 2019-09-10 | 中兴通讯股份有限公司 | Method for sending information, message receiving method, apparatus and system |
CN104333902B (en) * | 2014-11-06 | 2018-05-15 | 东莞宇龙通信科技有限公司 | Method of data synchronization, synchronization system, the equipment and terminal with base station functions |
CN104486013B (en) * | 2014-12-19 | 2017-01-04 | 宇龙计算机通信科技(深圳)有限公司 | Channel detection method, Channel Detection system, terminal and base station |
CN104540158B (en) * | 2015-01-12 | 2018-12-25 | 宇龙计算机通信科技(深圳)有限公司 | Channel Detection notification method, system and base station |
CN105101439B (en) * | 2015-08-28 | 2018-09-14 | 宇龙计算机通信科技(深圳)有限公司 | A kind of method and terminal of transmission |
CN105072690B (en) * | 2015-09-06 | 2018-08-28 | 魅族科技(中国)有限公司 | Data transmission method based on unlicensed spectrum and device |
-
2016
- 2016-02-02 CN CN201610073606.7A patent/CN107026723B/en active Active
-
2017
- 2017-01-17 WO PCT/CN2017/071429 patent/WO2017133445A1/en active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20150098397A1 (en) * | 2013-10-04 | 2015-04-09 | Qualcomm Incorporated | Techniques for assessing clear channel in an unlicensed radio frequency spectrum band |
CN104796920A (en) * | 2014-01-16 | 2015-07-22 | 电信科学技术研究院 | Data transmission method, base station and terminal equipment |
CN104540230A (en) * | 2015-01-30 | 2015-04-22 | 深圳酷派技术有限公司 | Uplink scheduling method and uplink scheduling device |
CN105101446A (en) * | 2015-06-30 | 2015-11-25 | 宇龙计算机通信科技(深圳)有限公司 | Conflict avoiding method and device for unlicensed bands |
Non-Patent Citations (1)
Title |
---|
"Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures (Release 11", 3GPPTS 36.213, 30 September 2014 (2014-09-30), XP055406766 * |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109417799A (en) * | 2018-09-28 | 2019-03-01 | 北京小米移动软件有限公司 | Control instruction transmission method, base station, terminal and storage medium |
CN109417799B (en) * | 2018-09-28 | 2023-10-31 | 北京小米移动软件有限公司 | Control instruction transmission method, base station, terminal and storage medium |
US11895659B2 (en) | 2018-09-28 | 2024-02-06 | Beijing Xiaomi Mobile Software Co., Ltd. | Control instruction transmission method, base station, terminal and storage medium |
US20220183060A1 (en) * | 2019-04-29 | 2022-06-09 | Apple Inc. | Uplink (UL) Transmission in Wideband Carrier and Carrier Aggregation in NR Systems Operating on Unlicensed Spectrum |
Also Published As
Publication number | Publication date |
---|---|
CN107026723B (en) | 2020-10-09 |
CN107026723A (en) | 2017-08-08 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
WO2017133445A1 (en) | Method and device for transmitting uplink control information | |
EP3413653B1 (en) | Method and device for transmitting uplink control information | |
WO2017157089A1 (en) | Method and device for configuring and determining semi-persistent scheduling | |
WO2018210176A1 (en) | Beam failure processing method, auxiliary base station failure processing method and terminal | |
WO2017133452A1 (en) | Method and device for transmitting uplink control information | |
JP6023333B2 (en) | Method and apparatus for controlling and scheduling communications between devices | |
EP3281486B1 (en) | Enb controlled ue based conditional carrier selection | |
WO2017124770A1 (en) | Channel state detection method, channel state detection apparatus and terminal | |
WO2017157128A1 (en) | Method and device for configuration and determination of semi-persistent scheduling | |
WO2017193766A1 (en) | Downlink data transmission method and device | |
US11356232B2 (en) | BWP deactivation method, device, and system | |
US20170332355A1 (en) | Communications in a Wireless System | |
US20220124794A1 (en) | Channel access method, terminal device, and network device | |
WO2016168967A1 (en) | Method and device for component carrier group configuration | |
CN112055985B (en) | Single-phase downlink control information design for scheduling multiple active bandwidth portions | |
CN105612800B (en) | Resource allocation method, device and system for equipment to equipment communication mode | |
JPWO2016121871A1 (en) | Base station and user equipment | |
WO2018024029A1 (en) | Random access method and apparatus | |
JP6530057B2 (en) | Method and node for decoding contention based uplink transmission | |
WO2024066982A1 (en) | Communication method and device | |
EP4418786A1 (en) | Data transmission method and communication device | |
TWI685268B (en) | Information transmission method and equipment | |
CN109525378B (en) | Carrier aggregation management method and device | |
CN116982274A (en) | Prioritizing data transmission | |
CN117413483A (en) | Transmission of feedback information |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 17746765 Country of ref document: EP Kind code of ref document: A1 |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
122 | Ep: pct application non-entry in european phase |
Ref document number: 17746765 Country of ref document: EP Kind code of ref document: A1 |