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WO2012129952A1 - Method and system for sending acknowledgement message in time division duplex system - Google Patents

Method and system for sending acknowledgement message in time division duplex system Download PDF

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Publication number
WO2012129952A1
WO2012129952A1 PCT/CN2011/084975 CN2011084975W WO2012129952A1 WO 2012129952 A1 WO2012129952 A1 WO 2012129952A1 CN 2011084975 W CN2011084975 W CN 2011084975W WO 2012129952 A1 WO2012129952 A1 WO 2012129952A1
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WO
WIPO (PCT)
Prior art keywords
ack
pucch format
harq
resource
pdcch
Prior art date
Application number
PCT/CN2011/084975
Other languages
French (fr)
Chinese (zh)
Inventor
梁春丽
戴博
喻斌
邬华明
Original Assignee
中兴通讯股份有限公司
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Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Publication of WO2012129952A1 publication Critical patent/WO2012129952A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signaling, i.e. of overhead other than pilot signals
    • H04L5/0055Physical resource allocation for ACK/NACK
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/18Automatic repetition systems, e.g. Van Duuren systems
    • H04L1/1829Arrangements specially adapted for the receiver end
    • H04L1/1861Physical mapping arrangements

Definitions

  • the present invention relates to the field of communications, and in particular, to a method and system for transmitting a response message in a time division duplex system.
  • the codeword sent by the originator can not only detect errors but also have certain error correction capability.
  • the receiver decoder After receiving the codeword, the receiver decoder first checks the error condition. If the error correction capability of the codeword is within, the error correction is automatically performed. If there are many errors, the error correction capability of the codeword is exceeded, but the error can be detected. Then, the receiving end sends a decision signal to the originating end through the feedback channel, and requests the originating end to resend the information.
  • a HARQ Acknowledgement (HARQ-ACK, HARQ Acknowledgement) is used to indicate a reception condition of a transmitted data at a terminal, where a HARQ-ACK response message is used. It includes three states: ACK, Acknowledgement, Negative Acknowledgement, and Discontinuous Transmission (DTX), where DTX indicates that the terminal does not receive control for demodulating downlink data. The channel, and thus the demodulation corresponding downlink data, cannot be received, so that no response message is fed back. This state is called the DTX state. The base station determines whether retransmission is required according to the HARQ-ACK sent by the terminal.
  • DTX Discontinuous Transmission
  • the HARQ-ACK response message can be separately sent on the Physical Uplink Control Channel (PUCCH). It can be sent with data on the Physical Uplink Shared Channel (PUSCH).
  • PUCCH Physical Uplink Control Channel
  • PUSCH Physical Uplink Shared Channel
  • the terminal In a frequency division duplex (FDD) system, since the uplink and downlink subframes are corresponding, when the physical downlink shared channel (PDSCH, Physical Downlink Shared Channel) contains only one codeword stream, the terminal needs to The 1-bit HARQ-ACK response message is fed back. When the PDSCH includes two codeword streams, the terminal feeds back a 2-bit HARQ-ACK response message. When the terminal does not transmit the PUSCH in the current subframe, the terminal will ⁇ on the PUCCH. use The format la or the format lb is used to transmit the 1-bit or 2-bit HARQ-ACK response message; and when the terminal has the PUSCH transmission in the current subframe, the terminal passes the 1-bit or 2-bit information to a certain HARQ-ACK state. The mapping to the corresponding bits, channel coding, scrambling, and modulation are multiplexed with the data and then transmitted on the PUSCH.
  • PDSCH Physical Downlink shared channel
  • the uplink and downlink subframes are not—corresponding, that is, the HARQ-ACK response message corresponding to multiple downlink subframes needs to be in the PUCCH/PUSCH of one uplink subframe.
  • the channel is sent, where the downlink subframe set corresponding to the uplink subframe constitutes a binding window.
  • two HARQ-ACK response message feedback modes are defined: One is HARQ-ACK bundling, as shown in Figure 1, the basic idea of the feedback mode is that it will need to be on the uplink.
  • the HARQ-ACK message of the codeword stream corresponding to each downlink subframe of the subframe is logically ANDed.
  • the terminal needs to feedback the logical operation and operation of the subframe.
  • the terminal feeds back the logical logic and operation corresponding to the codeword stream.
  • the terminal when the terminal does not have a PUSCH to transmit in the current subframe, the terminal will transmit the 1-bit or 2-bit HARQ-ACK response message in the format la or format lb on the PUCCH;
  • the terminal When there is PUSCH transmission in the current subframe, the terminal multiplexes the 1-bit or 2-bit information through a certain channel coding, channel interleaving, and data, and then transmits the information on the PUSCH.
  • the other is a HARQ-ACK multiplexing feedback mode. As shown in FIG.
  • the feedback mode needs to feed back one HARQ-ACK response message for each downlink subframe, and multiple subframes need to feed back multiple a HARQ-ACK response message
  • a PDSCH transmission of a downlink subframe includes two codeword streams
  • the terminal does not have a PUSCH to transmit in the current subframe, the terminal will transmit the multiple HARQ-ACK response messages by using the format lb with channel selection on the PUCCH.
  • HARQ-ACK response messages are represented by different PUCCH channels and different modulation symbols on the channel.
  • the method enables a portable HARQ-ACK response message to be up to 4 bits by channel selection in combination with the control channel format lb.
  • LTE defines different subframe configurations (that is, when the uplink and downlink subframe configurations are 1:2, 1:3, or 1:4, respectively)
  • HARQ-ACK A mapping relationship between the state combination of the response message and the selected PUCCH channel and the 2-bit information b(0) and b(1) carried on the channel (referred to as a mapping table).
  • the terminal uses HARQ-ACK bundling mode or HARQ-ACK multiplexing mode to feed back HARQ-ACK by higher layer configuration.
  • the discussion that follows is only sent on PUCCH for HARQ-ACK.
  • LTE-A Long Term Evolution Advanced
  • Rel-10 the corresponding standard protocol is Rel-10
  • CA Carrier Aggregation
  • a carrier to be aggregated is called a component carrier (CC), which is also called a serving cell.
  • CC component carrier
  • PCC/PCell Primary Component Carrier/Cell
  • SCC/SCell Secondary Component Carrier/Cell
  • SCC/SCell Secondary Component Carrier/Cell
  • LTE-A uses carrier aggregation technology
  • the base station configures multiple downlink serving cells for the terminal
  • the terminal needs to feed back HARQ-ACK response messages of the corresponding codeword streams of the multiple downlink serving cells.
  • HARQ-ACK response message is sent on the PUCCH
  • two feedback modes are defined: PU PUCCH format lb joint channel selection (Format lb with channel selection) and spread based on discrete Fourier transform Frequency feedback multiplexing (DFT-s-OFDM) feedback.
  • DFT-s-OFDM discrete Fourier transform Frequency feedback multiplexing
  • PUCCH format 3 PUCCH format 3
  • the terminal will feed back HARQ-ACK in PUCCH format lb joint channel selection; if the terminal can support Greater than 4 bits If the HARQ-ACK is fed back, the base station will further configure whether the terminal uses the PUCCH format lb joint channel selection method or the PUCCH format 3 to feed back HARQ-ACK 0 through high layer signaling.
  • the current protocol provides that, for the resource allocation of the PUCCH format 3, the terminal will jointly determine the HARQ-ACK resource indicator (ARI, ACK/NACK Resource Indicator) on the PDCCH corresponding to the PDSCH of the secondary serving cell and the PUCCH resource information of the high layer configuration.
  • the ARI field of the PDCCH reuses the transmission power control of the PDCCH (TPC, Transport Power is a power control command, but is used as an ARI, and assumes that the ARIs on the SCell have the same value.
  • the terminal when a terminal is configured with only one serving cell, the terminal can use one of the following three methods to feed back HARQ-ACK: TDD HARQ-ACK bundling, TDD HARQ-ACK multiplexing or PUCCH format 3.
  • the base station can use high-level signaling to indicate which way the terminal uses feedback.
  • the terminal is configured to use the PUCCH format 3 to feed back the HARQ-ACK, the current working assumption is that the channel resource of the PUCCH format 3 used by the terminal will be based on the received downlink allocation index (DAI, Downlink Assignment Index).
  • DAI Downlink Assignment Index
  • the TPC corresponding to the PDCCH greater than or equal to 2 and the PUCCH format 3 resource configured by the upper layer are determined, that is, the TPC corresponding to the PDCCH with the DAI value greater than or equal to 2 is used as the ARI, and the TPC corresponding to the PDCCH with the DAI value equal to 1 is used as the real TPC.
  • the terminal receives only one PDSCH without a PDCCH (that is, a Semi-Persistent Schedule (SPS)) and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, how does the terminal feed back its corresponding HARQ-ACK? There is no corresponding solution.
  • SPS Semi-Persistent Schedule
  • SPS PDSCH PDSCH
  • DAI value a PDCCH having a DAI value equal to 1 for receiving an autonomous serving cell.
  • PDSCH physical downlink shared channel
  • DAI downlink allocation index
  • the PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK.
  • TPC received PDCCH/transmission power control
  • ARI ACK/NACK resource indicator
  • the corresponding PUCCH format 3 resource is determined according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then the corresponding HARQ-ACK message is fed back on the determined PUCCH format 3 resource.
  • the sending method further includes:
  • the terminal When receiving a PDSCH without a PDCCH in the binding window, the terminal selects a corresponding PUCCH format 3 resource according to a preset ARI value and a high-level configured PUCCH format 3 resource, and then the corresponding PUCCH format 3 resource. The corresponding HARQ-ACK message is fed back.
  • the pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
  • the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner includes:
  • the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
  • FDD Frequency Division Duplex
  • the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner includes:
  • the PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell selects the corresponding HARQ-ACK message in the same manner.
  • TDD Time Division Duplex
  • a transmitting system for answering messages in a time division duplex system suitable for use in a terminal configured to transmit a hybrid automatic repeat request response message (HARQ-ACK) using a Physical Uplink Control Channel (PUCCH) format 3, the transmitting system
  • HARQ-ACK hybrid automatic repeat request response message
  • PUCCH Physical Uplink Control Channel
  • the first device and the second device are included, where: the first device is configured to: receive a physical downlink shared channel (PDSCH) from a serving cell in a binding window;
  • PDSCH physical downlink shared channel
  • the second device is configured to: when the first device receives, in the binding window, only one PDSCH without a PDCCH in the primary serving cell and a PDCCH corresponding to a downlink allocation index (DAI) value equal to 1 In the PDSCH, the corresponding HARQ-ACK message is fed back in one of the following ways:
  • the PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK.
  • the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
  • TPC received transmission power control
  • ARI ACK/NACK resource indicator
  • the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
  • the PUCCH format 3 resource then feeds back the corresponding HARQ-ACK message on the determined PUCCH format 3 resource.
  • the second device is further configured to: when the terminal is configured to use PUCCH format 3 to feed back a corresponding HARQ-ACK, and the first device receives a PDSCH without a PDCCH in the binding window.
  • the corresponding PUCCH format 3 resource is selected according to the preset ARI value and the high-level configured PUCCH format 3 resource, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
  • the second device is configured to use the PUCCH format lb to feed back the corresponding HARQ-ACK in the following manner:
  • the HARQ-ACK of the PDSCH without the PDCCH and the HARQ-ACK of the PDSCH corresponding to the PDCCH with the DAI value of 1 are spatially bound to obtain a 2-bit pre-agreed PUCCH resource.
  • the pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
  • the second device is configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
  • the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
  • FDD Frequency Division Duplex
  • the second device is configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
  • the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell.
  • TDD Time Division Duplex
  • a solution for feeding back a HARQ-ACK response message is provided for a terminal that only receives a PDSCH without a PDCCH and a PDCCH with a DAI value equal to 1 to the autonomous serving cell, which is simple to implement and has high applicability. And will not affect existing agreements.
  • Figure 1 is a schematic diagram of the HARQ-ACK bundling mode
  • FIG. 2 is a schematic diagram of a HARQ-ACK multiplexing mode
  • FIG. 3 is a schematic diagram of a terminal use mode 1-1 feedback HARQ-ACK response message in the application example 1 of the present invention
  • FIG. 4 is a schematic diagram of a terminal use mode 1-1 feedback HARQ-ACK response message in Application Example 2 of the present invention
  • FIG. 5 is another schematic diagram of the terminal use mode 1-2 feedback HARQ-ACK response message in the application example 3 of the present invention.
  • FIG. 6 is a schematic diagram of a terminal use mode 2 feedback HARQ-ACK response message in the application example 4 of the present invention.
  • FIG. 7 is a schematic diagram of a terminal use mode 3-1 feedback HARQ-ACK response message in the application example 5 of the present invention.
  • FIG. 8 is a schematic diagram of a terminal using mode 3-1 feedback HARQ-ACK response message in Application Example 6 of the present invention.
  • FIG. 9 is a schematic diagram of a terminal using mode 3-1 feedback HARQ-ACK response message in the application example 7 of the present invention.
  • FIG. 10 is a schematic diagram of a terminal use mode 3-2 feedback HARQ-ACK response message in the application example 8 of the present invention.
  • FIG. 11 is a schematic diagram of a terminal use mode 3-2 feedback HARQ-ACK response message in the application example 9 of the present invention.
  • Preferred embodiment of the invention
  • the method for sending a response message in the time division duplex system is applicable to a terminal configured to use the PUCCH format 3 to feed back a HARQ-ACK response message, including:
  • the terminal uses any of the following methods to feed back the HARQ-ACK response. Message:
  • Mode 3 The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK response message.
  • the binding window includes a time-frequency two-dimensional resource, and the time domain refers to a plurality of downlink subframes corresponding to one uplink subframe according to the uplink and downlink subframes, and the frequency domain refers to a serving cell or a carrier that is configured for the terminal.
  • the foregoing method 1 specifically includes the mode 1-1 and the mode 1-2:
  • Mode 1-1 The terminal determines the PUCCH format 3 resource according to the received TPC corresponding to the PDCCH with the DAI value equal to 1 and the PUCCH format 3 resource configured by the upper layer, and then feeds back corresponding information on the determined PUCCH format 3 resource n CH HARQ-ACK response message.
  • p is the antenna port number, which is 0 or 1.
  • the determining the corresponding PUCCH format 3 resource n CH according to the received TPC corresponding to the PDCCH with the DAI value equal to 1 and the PUCCH format 3 resource configured by the upper layer refers to: the TPC corresponding to the PDCCH that receives the received DAI value equal to 1.
  • the value is used as the value of the ARI, and the PUCCH format 3 resource n CH is determined in combination with the PUCCH format 3 resource of the high layer configuration. Since the TPC value has been used as the value of the API, accordingly, the terminal is equivalent to no TPC life. Order.
  • Manner 1-2 The terminal selects a corresponding PUCCH format 3 resource according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then feeds back a corresponding HARQ-ACK response message on the selected PUCCH format 3 resource.
  • the terminal uses mode 1-2 to feed back the corresponding HARQ-ACK response message.
  • the foregoing method 2 specifically includes: the terminal first performs spatial binding operation ( Spatial Bundling) on the received PDSCH without the PDCCH and the PDSCH corresponding to the PDCCH corresponding to the PDCCH with the DAI value equal to 1, and obtains 2 bits.
  • the HARQ-ACK response message is then sent by the PUCCH format lb on the pre-agreed PUCCH format la/lb resource to obtain the 2-bit HARQ-ACK response message obtained after spatial binding.
  • the pre-agreed PUCCH format la/lb resource may be a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
  • the foregoing manner 3 specifically includes the mode 3-1 and the mode 3-2:
  • Mode 3-1 The terminal feeds back the corresponding HARQ-ACK message in the same manner as the PUCCH format lb joint channel selection in the Rel-10 FDD system;
  • Mode 3-2 When the terminal is configured with the Rel-10 TDD system as a one-month service cell
  • the PUCCH format lb joint channel selects the same manner to feed back the corresponding HARQ-ACK message.
  • the lower uplink subframe configuration value M is determined according to the uplink and downlink subframe configuration configured in the terminal.
  • the embodiment of the present invention further provides a sending system for a response message in a time division duplex system, which is applicable to a terminal configured to transmit a HARQ-ACK response message by using PUCCH format 3, where the sending system includes a device and a second device, wherein:
  • the first device is configured to: receive a PDSCH from a serving cell in a binding window;
  • the second device is configured to: when the first device receives only one PDSCH without a PDCCH in the primary serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1 in the binding window, according to the following One of the modes feeds back the corresponding HARQ-ACK response message:
  • Mode 3 The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK response message.
  • the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
  • TPC Transmission Power Control
  • ARI ACK/NACK resource indicator
  • the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
  • the corresponding PUCCH format 3 resource is determined according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
  • the system further comprises a third device:
  • the third device is configured to: when the first device receives one in the bound window
  • the corresponding PUCCH format 3 resource is selected according to the preset ARI value and the PUCCH format 3 resource configured in the upper layer, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
  • the second device is further configured to use the PUCCH format lb to feedback the corresponding HARQ-ACK in the following manner:
  • the bit HARQ-ACK message is transmitted on the pre-agreed PUCCH resource by the PUCCH format lb mode.
  • the pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
  • the second device is further configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
  • the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
  • FDD Frequency Division Duplex
  • the second means is arranged to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
  • the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when the Rel-10 TDD system is configured as one serving cell.
  • the base station configures two serving cells for the terminal: the primary serving cell and the secondary serving cell, and configures the terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, and assumes that the TPC value on the PDCCH with a DAI value equal to 1 is "01". " .
  • the terminal uses the foregoing mode 1-1 to feed back the HARQ-ACK response message
  • the TPC of the PDCCH with the DAI value equal to 1 is reused as the ARI, that is, the terminal is equal to 1 according to the received DAI value.
  • the TPC corresponding to the PDCCH and the PUCCH format 3 resource configured by the upper layer determine the PUCCH format 3 resource. According to Table 1, the terminal will use the PUCCH format 3 resource of the second higher layer to feed back the corresponding HARQ-ACK response message on PUCCH format 3.
  • the base station configures a primary serving cell for a terminal, and configures the terminal to use PUCCH format 3 to feed back a HARQ-ACK response message.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, and assumes that the TPC value on the PDCCH with a DAI value equal to 1 is "01". " .
  • the terminal uses the foregoing mode 1-1 to feed back the HARQ-ACK response message
  • the TPC of the PDCCH with the DAI value equal to 1 is reused as the ARI, that is, the terminal is equal to 1 according to the received DAI value.
  • the TPC corresponding to the PDCCH and the PUCCH format 3 resource configured by the upper layer determine the PUCCH format 3 resource. According to Table 1, the terminal will use the PUCCH format 3 resource of the second higher layer to feed back the corresponding HARQ-ACK response message on PUCCH format 3.
  • Embodiments 1 and 2 it can be seen from Embodiments 1 and 2 that no matter how many serving cells are configured in the terminal, as long as it configures a PDSCH without a PDCCH and a PDSCH corresponding to a PDCCH with a DAI value equal to 1 of the primary serving cell, it feeds back the HARQ-ACK. The way is the same. Therefore, in the following embodiments, it is no longer described how many serving cells are configured by the terminal.
  • the base station needs to prevent the PUCCH format 3 resource used by the terminal from colliding with the PUCCH format 3 resource used by other terminals during scheduling.
  • Application example 3
  • the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message. It is assumed that in a certain binding window, the terminal only receives a PDSCH without PDCCH and a PDCCH with a DAI value equal to 1 from the autonomous serving cell, and the corresponding relationship between the value of the ARI and the resource of PUCCH format 3 is as shown in Table 1.
  • the terminal determines the PUCCH format 3 resource according to the default ARI value and the PUCCH format 3 resource configured by the upper layer, and assumes that the default ARI value is "00". According to Table 1, the terminal will feed back the corresponding HARQ-ACK response message on PUCCH format 3 by using the PUCCH format 3 resource of the first higher layer configuration.
  • the terminal may have DTX (Discontinuous Transmission) in some subframes, that is, the base station schedules the PDSCH on a certain subframe, but since the terminal does not detect the corresponding PDCCH, it cannot detect it.
  • DTX Continuous Transmission
  • the base station schedules a PDSCH without a PDCCH, a PDSCH corresponding to a PDCCH having a DAI value equal to 1, and a PDSCH corresponding to a PDCCH having a DAI value equal to 2.
  • the terminal will send a corresponding HARQ-ACK response message on the PUCCH format 3 resource corresponding to the ARI with the DAI value equal to 2.
  • FIG. 5 shows that the base station schedules a PDSCH without a PDCCH, a PDSCH corresponding to a PDCCH having a DAI value equal to 1, and a PDSCH corresponding to a PDCCH having a DAI value equal to 2.
  • the terminal will use the default ARI corresponding.
  • the PUCCH format 3 resource sends a corresponding HARQ-ACK response message.
  • the base station side considers that the terminal sends a corresponding HARQ-ACK response message to the PUCCH format 3 resource corresponding to the ARI with the DAI value equal to 2.
  • the terminal uses the PUCCH format 3 corresponding to the default ARI.
  • the resource sends a corresponding HARQ-ACK response message, and the base station needs to blindly detect both cases.
  • the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1.
  • the terminal feeds back the HARQ-ACK response message in the above manner 2
  • the terminal First, a spatially bound BFD of a PDSCH without a PDCCH and a HARQ-ACK response message of a PDSCH corresponding to a PDCCH with a DAI value equal to 1 is obtained, and then a 2-bit HARQ-ACK response message is obtained, and then used.
  • the PUCCH format lb transmits the 2-bit HARQ-ACK response message obtained after the spatial bonding operation is performed on the PUCCH resource corresponding to the PDCCH including the DAI value equal to 1.
  • the PUCCH resource corresponding to the PDCCH with the DAI value equal to 1 is determined according to an implicit mapping relationship of a minimum CCE (Control Channel Element) index of the PDCCH with a DAI value equal to 1.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1.
  • the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
  • the feedback status determines (selects) a channel " ⁇ CCT ⁇ . b(0)b(l), then the selected b(0)b(l) is sent out on the selected "channel.”
  • the base station configures a terminal with PUCCH format 3 for feedback.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1.
  • the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
  • the terminal maps the HARQ-ACK response message corresponding to the SPS subframe to the HARQ-ACK.
  • Application Examples 5 and 6 differ in the processing of SPS subframes, in Application Example 5, Equivalent to mapping the codeword stream without PDSCH transmission in the SPS subframe to HARQ-ACK(l).
  • HARQ-ACK(l) needs to be set to the default value (NACK or DTX), but in the application.
  • NACK or DTX the default value
  • the SPS subframe transmission only contains one codeword stream, and therefore, the SPS subframe may correspond to only one HARQ-ACK response message.
  • the application example 6 has only three bits of the HARQ-ACK response message actually fed back, and thus Application Example 6 is a preferred scheme.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1.
  • the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
  • the terminal maps the HARQ-ACK response message of one codeword stream corresponding to the SPS subframe to the HARQ-ACK (0), and maps the HARQ-ACK response message of the PDCCH corresponding to the codeword stream of the PDSCH to the HARQ-ACK message of the PDSCH.
  • the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1.
  • the terminal uses the above manner 3-2 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when a serving cell is configured in the Rel-10 TDD system, specifically:
  • the mapping table used in the PUCCH format lb joint channel selection when a serving cell is configured in the Rel-10 TDD system is configured by higher layer signaling, and can be configured to use the mapping table shown in Table 5, or configured as Table 6.
  • the terminal only receives one of the incoming autonomous serving cells without PDCCH.
  • the format lb joint channel selects the same manner to feed back the corresponding HARQ-ACK message, specifically, it includes:
  • mapping table of M 3 when PUCCH format lb joint channel selection
  • mapping table of M 2 when PUCCH format lb joint channel selection
  • the terminal of the PDSCH and a PDCCH with a DAI value equal to 1 provides a solution for feeding back the HARQ-ACK response message, which is simple to implement, highly applicable, and does not affect the existing protocol. Therefore, the present invention has strong industrial applicability.

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Abstract

A method and system for sending an acknowledgement message in a time division duplex system, suitable for a terminal configured to feed back a hybrid automatic repeat request acknowledgement (HARQ-ACK) message using physical uplink control channel (PUCCH) format 3. The method comprises: receiving a physical downlink shared channel (PDSCH) from a serving cell within a binding window; when receiving only the PDSCH without PDCCH from a primary serving cell and the PDSCH corresponding to a PDCCH with a downlink allocation index value equal to 1 within the binding window, feeding back the corresponding HARQ-ACK following one of the below methods: feeding back the corresponding HARQ-ACK using PUCCH format 3; feeding back the corresponding HARQ-ACK using PUCCH format 1b; feeding back the corresponding HARQ-ACK using PUCCH format 1b with the channel selection method. The present invention causes no impact on the existing protocol.

Description

一种时分双工系统中应答消息的发送方法及系统  Method and system for transmitting response message in time division duplex system
技术领域 Technical field
本发明涉及通信领域, 尤其涉及一种时分双工系统中应答消息的发送方 法及系统。  The present invention relates to the field of communications, and in particular, to a method and system for transmitting a response message in a time division duplex system.
背景技术 Background technique
在混合自动重传请求 ( HARQ, Hybrid Automatic Repeat Request )方式中, 发端发送的码字不仅能够检错, 而且还具有一定的纠错能力。 接收端译码器 收到码字后, 首先检验错误情况, 如果在码字的纠错能力以内, 则自动进行 纠错, 如果错误很多, 超过了码字的纠错能力, 但能检测出错误来, 则接收 端通过反馈信道向发端发送一个判决信号, 要求发端重发信息。 在正交频分 复用 ( OFDM , Orthogonal Frequency Division Multiplex ) 系统中, 通过 HARQ-ACK应答消息(HARQ-ACK, HARQ Acknowledgement )来表示发送 的数据在终端处的接收情况,其中 HARQ-ACK应答消息包含正确应答 ( ACK, Acknowledgement ) , 错误应答 ( NACK, Negative Acknowledgement )以及不 连续发送(DTX, Discontinuous Transmission )等三种状态, 其中 DTX表示 的是, 终端没有接收到用于解调下行数据的控制信道, 因而也就无法去接收 解调相应的下行数据, 从而也就不会反馈任何的应答消息, 这种状态称之为 DTX状态。 基站根据终端发送的 HARQ-ACK来判断是否需要重传。 在长期 演进(LTE, Long Term Evolution ) 系统(其对应的标准协议为 Rel-8/9 ) 中, HARQ-ACK应答消息可以在物理上行控制信道(PUCCH, Physical Uplink Control Channel )上单独发送,也可以在物理上行共享信道( PUSCH, Physical Uplink Shared Channel )上与数据一起发送。  In the Hybrid Automatic Repeat Request ( HARQ) mode, the codeword sent by the originator can not only detect errors but also have certain error correction capability. After receiving the codeword, the receiver decoder first checks the error condition. If the error correction capability of the codeword is within, the error correction is automatically performed. If there are many errors, the error correction capability of the codeword is exceeded, but the error can be detected. Then, the receiving end sends a decision signal to the originating end through the feedback channel, and requests the originating end to resend the information. In an Orthogonal Frequency Division Multiplex (OFDM) system, a HARQ Acknowledgement (HARQ-ACK, HARQ Acknowledgement) is used to indicate a reception condition of a transmitted data at a terminal, where a HARQ-ACK response message is used. It includes three states: ACK, Acknowledgement, Negative Acknowledgement, and Discontinuous Transmission (DTX), where DTX indicates that the terminal does not receive control for demodulating downlink data. The channel, and thus the demodulation corresponding downlink data, cannot be received, so that no response message is fed back. This state is called the DTX state. The base station determines whether retransmission is required according to the HARQ-ACK sent by the terminal. In the Long Term Evolution (LTE) system (the corresponding standard protocol is Rel-8/9), the HARQ-ACK response message can be separately sent on the Physical Uplink Control Channel (PUCCH). It can be sent with data on the Physical Uplink Shared Channel (PUSCH).
在频分双工 ( FDD, Frequency Division Duplex ) 系统中, 由于上下行子 帧是——对应的, 所以当物理下行共享信道( PDSCH , Physical Downlink Shared Channel )只包含一个码字流时, 终端要反馈 1比特的 HARQ-ACK应 答消息, 当 PDSCH包含两个码字流时, 终端要反馈 2比特的 HARQ-ACK应 答消息, 当终端在当前子帧没有 PUSCH要发送时, 终端将在 PUCCH上釆用 格式 la或格式 lb来发送这 1比特或 2比特的 HARQ-ACK应答消息;而当终 端在当前子帧有 PUSCH发送时,则终端将这 1比特或 2比特的信息经过一定 的 HARQ-ACK状态到相应比特的映射、 信道编码、 加扰、 调制后与数据复 用在一起, 然后在 PUSCH上发送。 In a frequency division duplex (FDD) system, since the uplink and downlink subframes are corresponding, when the physical downlink shared channel (PDSCH, Physical Downlink Shared Channel) contains only one codeword stream, the terminal needs to The 1-bit HARQ-ACK response message is fed back. When the PDSCH includes two codeword streams, the terminal feeds back a 2-bit HARQ-ACK response message. When the terminal does not transmit the PUSCH in the current subframe, the terminal will 在 on the PUCCH. use The format la or the format lb is used to transmit the 1-bit or 2-bit HARQ-ACK response message; and when the terminal has the PUSCH transmission in the current subframe, the terminal passes the 1-bit or 2-bit information to a certain HARQ-ACK state. The mapping to the corresponding bits, channel coding, scrambling, and modulation are multiplexed with the data and then transmitted on the PUSCH.
在时分双工 (TDD, Time Division Duplex ) 系统中, 由于上下行子帧不 是——对应的, 也就是说多个下行子帧对应的 HARQ-ACK应答消息需要在 一个上行子帧的 PUCCH/PUSCH信道上发送, 其中上行子帧对应的下行子帧 集合组成了绑定窗口 (bundling window ) 。 在 LTE TDD 里, 定义了两种 HARQ-ACK应答消息反馈模式: 一种是 HARQ-ACK 绑定 (HARQ-ACK bundling ) , 如图 1所示, 该反馈模式的基本思想是将需要在该上行子帧反馈 的各个下行子帧对应的码字流的 HARQ-ACK 消息进行逻辑与运算, 如果一 个下行子帧的 PDSCH发射包含 2个码字流,则终端要反馈经过了子帧逻辑与 操作的对应于每个码字流的 2比特的 HARQ-ACK应答消息,如果各个子帧的 PDSCH发射都只有一个码字流,终端要反馈经过了子帧逻辑与操作的对应于 该码字流的 1比特的 HARQ-ACK应答消息, 当终端在当前子帧没有 PUSCH 要发送时, 终端将在 PUCCH上釆用格式 la或格式 lb来发送这 1比特或 2 比特的 HARQ-ACK应答消息; 而当终端在当前子帧有 PUSCH发送时, 则终 端将这 1比特或 2比特信息, 经过一定的信道编码、 信道交织与数据复用在 一起, 然后在 PUSCH上发送。 另一种是 HARQ-ACK 复用 (HARQ-ACK multiplexing )反馈模式, 如图 2所示, 该反馈模式需要为每个下行子帧反馈 一个 HARQ-ACK应答消息,多个子帧则需要反馈多个 HARQ-ACK应答消息, 且当某下行子帧的 PDSCH发射包含 2个码字流时,先对每个下行子帧对应的 两个码字流的 HARQ-ACK应答消息进行逻辑与操作(也称为空间绑定操作 ), 最终每个下行子帧只对应一个 HARQ-ACK应答消息。 当终端在当前子帧没 有 PUSCH要发送时,终端将在 PUCCH上釆用格式 lb联合信道选择 ( format lb with channel selection ) 的方式来发送这多个 HARQ-ACK应答消息, 该方 法的核心思想就是利用不同的 PUCCH信道和该信道上不同的调制符号来表 示不同的 HARQ-ACK应答消息。 该方法通过信道选择结合控制信道格式 lb 的方式, 使可携带的 HARQ-ACK应答消息最多可达 4比特。 LTE定义了不 同子帧配置时(也就是上下行子帧配置分别为 1 :2、 1 : 3或 1 : 4时), HARQ-ACK 应答消息的状态组合与选择的 PUCCH信道以及该信道上携带的 2比特信息 b ( 0 )和 b ( 1 )之间映射关系表(简称映射表) 。 In a Time Division Duplex (TDD) system, the uplink and downlink subframes are not—corresponding, that is, the HARQ-ACK response message corresponding to multiple downlink subframes needs to be in the PUCCH/PUSCH of one uplink subframe. The channel is sent, where the downlink subframe set corresponding to the uplink subframe constitutes a binding window. In LTE TDD, two HARQ-ACK response message feedback modes are defined: One is HARQ-ACK bundling, as shown in Figure 1, the basic idea of the feedback mode is that it will need to be on the uplink. The HARQ-ACK message of the codeword stream corresponding to each downlink subframe of the subframe is logically ANDed. If the PDSCH transmission of one downlink subframe includes two codeword streams, the terminal needs to feedback the logical operation and operation of the subframe. Corresponding to the 2-bit HARQ-ACK response message of each codeword stream, if the PDSCH transmission of each subframe has only one codeword stream, the terminal feeds back the logical logic and operation corresponding to the codeword stream. a bit HARQ-ACK response message, when the terminal does not have a PUSCH to transmit in the current subframe, the terminal will transmit the 1-bit or 2-bit HARQ-ACK response message in the format la or format lb on the PUCCH; When there is PUSCH transmission in the current subframe, the terminal multiplexes the 1-bit or 2-bit information through a certain channel coding, channel interleaving, and data, and then transmits the information on the PUSCH. The other is a HARQ-ACK multiplexing feedback mode. As shown in FIG. 2, the feedback mode needs to feed back one HARQ-ACK response message for each downlink subframe, and multiple subframes need to feed back multiple a HARQ-ACK response message, and when a PDSCH transmission of a downlink subframe includes two codeword streams, first perform logical AND operations on the HARQ-ACK response messages of the two codeword streams corresponding to each downlink subframe (also called For spatial binding operations, each downlink subframe corresponds to only one HARQ-ACK response message. When the terminal does not have a PUSCH to transmit in the current subframe, the terminal will transmit the multiple HARQ-ACK response messages by using the format lb with channel selection on the PUCCH. The core idea of the method is Different HARQ-ACK response messages are represented by different PUCCH channels and different modulation symbols on the channel. The method enables a portable HARQ-ACK response message to be up to 4 bits by channel selection in combination with the control channel format lb. When LTE defines different subframe configurations (that is, when the uplink and downlink subframe configurations are 1:2, 1:3, or 1:4, respectively), HARQ-ACK A mapping relationship between the state combination of the response message and the selected PUCCH channel and the 2-bit information b(0) and b(1) carried on the channel (referred to as a mapping table).
终端釆用 HARQ-ACK bundling模式还是 HARQ-ACK multiplexing模式来 反馈 HARQ-ACK由高层配置。 后面的讨论只针对 HARQ-ACK在 PUCCH上 发送。  The terminal uses HARQ-ACK bundling mode or HARQ-ACK multiplexing mode to feed back HARQ-ACK by higher layer configuration. The discussion that follows is only sent on PUCCH for HARQ-ACK.
为 了 满足高 级国 际 电信联盟 ( ITU-Advanced , International Telecommunication Union-Advanced ) 的要求, 作为 LTE演进标准的高级长期 演进(LTE-A, Long Term Evolution Advanced ) 系统(其对应的标准协议为 Rel-10 ) 需要支持更大的系统带宽 (最高可达 100MHz ) , 并需要后向兼容 LTE现有的标准。在现有的 LTE系统的基础上, 可以将 LTE系统的带宽进行 合并以获得更大的带宽, 这种技术称为载波聚合(CA, Carrier Aggregation ) 技术,该技术能够提高 IMT-Advance系统的频谱利用率、緩解频谱资源紧缺, 进而优化频谱资源的利用。  In order to meet the requirements of the Advanced International Telecommunication Union (ITU-Advanced), the LTE-Advanced Long Term Evolution Advanced (LTE-A) system (the corresponding standard protocol is Rel-10) Need to support larger system bandwidth (up to 100MHz) and need to be backward compatible with existing LTE standards. Based on the existing LTE system, the bandwidth of the LTE system can be combined to obtain a larger bandwidth. This technology is called Carrier Aggregation (CA) technology, which can improve the spectrum of the IMT-Advance system. Utilization and mitigation of spectrum resources are scarce, thereby optimizing the utilization of spectrum resources.
在引入了载波聚合的系统中, 进行聚合的载波称为分量载波(CC , Component Carrier ) , 也称为一个服务小区( Serving Cell )。 同时, 还提出了 主分量载波 /小区(PCC/PCell, Primary Component Carrier/Cell )和辅分量载波 /小区(SCC/SCell, Secondary Component Carrier/Cell )的概念。 在进行了载波 聚合的系统中, 至少包含一个主服务小区和辅服务小区, 其中主服务小区一 直处于激活状态。  In a system in which carrier aggregation is introduced, a carrier to be aggregated is called a component carrier (CC), which is also called a serving cell. At the same time, the concepts of the primary component carrier/cell (PCC/PCell, Primary Component Carrier/Cell) and the secondary component carrier/cell (SCC/SCell, Secondary Component Carrier/Cell) are also proposed. In the system for performing carrier aggregation, at least one primary serving cell and a secondary serving cell are included, wherein the primary serving cell is always in an active state.
当 LTE-A釆用了载波聚合技术, 且基站为终端配置了多个下行服务小区 时, 终端需要反馈这多个下行服务小区相应的码字流的 HARQ-ACK应答消 息。 在 LTE-A里, 当 HARQ-ACK应答消息在 PUCCH上发送时, 定义了两 种反馈方式: 釆用 PUCCH format lb联合信道选择 ( Format lb with channel selection )以及基于离散傅里叶变换扩频正交频分复用 (DFT-s-OFDM )的反 馈方式。 由于基于 DFT-s-OFDM 的反馈方式的信道结构与 PUCCH format l/la/lb/2/2a/2b均不同, 因此在现有 LTE-A协议中, 这种结构被称为 PUCCH 格式 3 ( PUCCH format 3 )。 对于配置了多个服务小区的终端, 如果该终端最 多只能支持 4比特的 HARQ-ACK反馈的话, 则该终端将釆用 PUCCH format lb联合信道选择的方式反馈 HARQ-ACK;如果该终端能够支持大于 4比特的 HARQ-ACK反馈的话, 则基站将进一步通过高层信令配置该终端是釆用 PUCCH format lb联合信道选择的方式还是釆用 PUCCH format 3 来反馈 HARQ-ACK0 When LTE-A uses carrier aggregation technology, and the base station configures multiple downlink serving cells for the terminal, the terminal needs to feed back HARQ-ACK response messages of the corresponding codeword streams of the multiple downlink serving cells. In LTE-A, when the HARQ-ACK response message is sent on the PUCCH, two feedback modes are defined: PU PUCCH format lb joint channel selection (Format lb with channel selection) and spread based on discrete Fourier transform Frequency feedback multiplexing (DFT-s-OFDM) feedback. Since the channel structure of the feedback mode based on DFT-s-OFDM is different from PUCCH format l/la/lb/2/2a/2b, in the existing LTE-A protocol, this structure is called PUCCH format 3 ( PUCCH format 3). For a terminal configured with multiple serving cells, if the terminal can only support up to 4 bits of HARQ-ACK feedback, the terminal will feed back HARQ-ACK in PUCCH format lb joint channel selection; if the terminal can support Greater than 4 bits If the HARQ-ACK is fed back, the base station will further configure whether the terminal uses the PUCCH format lb joint channel selection method or the PUCCH format 3 to feed back HARQ-ACK 0 through high layer signaling.
当前协议规定, 对于 PUCCH format 3的资源分配, 终端将根据与辅服务 小区的 PDSCH 对应的 PDCCH 上的 HARQ-ACK 资源指示符 (ARI , ACK/NACK Resource Indicator )和高层配置的 PUCCH资源信息联合确定, 其中, PDCCH的 ARI域重用 PDCCH的传输功率控制( TPC, Transport Power 为功率控制命令, 而是作为 ARI来使用, 且假定 SCell上的 ARI都具有相同 的取值。  The current protocol provides that, for the resource allocation of the PUCCH format 3, the terminal will jointly determine the HARQ-ACK resource indicator (ARI, ACK/NACK Resource Indicator) on the PDCCH corresponding to the PDSCH of the secondary serving cell and the PUCCH resource information of the high layer configuration. The ARI field of the PDCCH reuses the transmission power control of the PDCCH (TPC, Transport Power is a power control command, but is used as an ARI, and assumes that the ARIs on the SCell have the same value.
在 TDD系统中,当终端只配置了一个服务小区时,终端反馈 HARQ-ACK 时可以釆用以下三种方式之一: TDD HARQ-ACK bundling, TDD HARQ-ACK multiplexing或 PUCCH format 3。基站可以通过高层信令来指示终端釆用哪种 方式进行反馈。当终端被配置为釆用 PUCCH format 3来反馈 HARQ-ACK时, 当前的一个工作假定是,终端使用的 PUCCH format 3的信道资源将根据接收 到的 PDCCH中下行分配索引( DAI, Downlink Assignment Index )大于等于 2 的 PDCCH对应的 TPC以及高层配置的 PUCCH format 3资源来确定,也就是 说, DAI值大于等于 2的 PDCCH对应的 TPC将用作 ARI, 而 DAI值等于 1 的 PDCCH对应的 TPC作为真正的 TPC。 但是, 当终端只接收到一个没有 PDCCH 的 PDSCH (也就是半静态调度(SPS, Semi - Persistent Schedule ) PDSCH )和一个 DAI值等于 1的 PDCCH对应的 PDSCH时, 终端如何反馈 其相应的 HARQ-ACK尚无相应的解决方案。 发明内容  In a TDD system, when a terminal is configured with only one serving cell, the terminal can use one of the following three methods to feed back HARQ-ACK: TDD HARQ-ACK bundling, TDD HARQ-ACK multiplexing or PUCCH format 3. The base station can use high-level signaling to indicate which way the terminal uses feedback. When the terminal is configured to use the PUCCH format 3 to feed back the HARQ-ACK, the current working assumption is that the channel resource of the PUCCH format 3 used by the terminal will be based on the received downlink allocation index (DAI, Downlink Assignment Index). The TPC corresponding to the PDCCH greater than or equal to 2 and the PUCCH format 3 resource configured by the upper layer are determined, that is, the TPC corresponding to the PDCCH with the DAI value greater than or equal to 2 is used as the ARI, and the TPC corresponding to the PDCCH with the DAI value equal to 1 is used as the real TPC. However, when the terminal receives only one PDSCH without a PDCCH (that is, a Semi-Persistent Schedule (SPS)) and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, how does the terminal feed back its corresponding HARQ-ACK? There is no corresponding solution. Summary of the invention
本发明的目的是提供一种时分双工系统中应答消息的发送方法及系统, 解决其只接收到来自主服务小区的一个没有 PDCCH的 PDSCH (后面简称为 SPS PDSCH )和一个 DAI值等于 1的 PDCCH对应的 PDSCH时, 如何反馈 HARQ-ACK的问题。  It is an object of the present invention to provide a method and system for transmitting a response message in a time division duplex system, which solves a PDSCH (hereinafter referred to as SPS PDSCH) without a PDCCH and only a PDCCH having a DAI value equal to 1 for receiving an autonomous serving cell. How to feedback the HARQ-ACK problem when the corresponding PDSCH is used.
为解决上述问题, 釆用如下技术方案: 一种时分双工系统中应答消息的发送方法, 适用于被配置为釆用物理上 行控制信道 ( PUCCH ) 格式 3 来反馈混合自动重传请求应答消息 ( HARQ-ACK ) 的终端中, 该发送方法包括: In order to solve the above problems, the following technical solutions are used: A method for transmitting a response message in a time division duplex system, applicable to a terminal configured to use a physical uplink control channel (PUCCH) format 3 to feed back a hybrid automatic repeat request response message (HARQ-ACK), the transmission method include:
在绑定窗内接收来自服务小区的物理下行共享信道(PDSCH ) ; 当在所述绑定窗内仅接收到主服务小区中的一个没有 PDCCH的 PDSCH 和一个下行分配索引 ( DAI )值等于 1的 PDCCH所对应的 PDSCH时, 按照 以下方式之一反馈相应的 HARQ-ACK: Receiving a physical downlink shared channel (PDSCH) from the serving cell in the binding window; receiving only one PDSCH without the PDCCH and one downlink allocation index ( DAI ) value equal to 1 in the primary serving cell in the binding window When the PDSCH corresponding to the PDCCH is received, the corresponding HARQ-ACK is fed back in one of the following ways:
釆用 PUCCH格式 3来反馈相应的 HARQ-ACK;  PUUsing PUCCH format 3 to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb来反馈相应的 HARQ-ACK;  PUUsing the PUCCH format lb to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb联合信道选择的方式来反馈相应的 HARQ-ACK。  PU The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK.
将接收到的 DAI值等于 1的 PDCCH对应的传输功率控制 (TPC )重用 为 ACK/NACK资源指示符( ARI ) , 并结合高层配置的 PUCCH格式 3资源 来确定相应的 PUCCH格式 3资源,然后在所确定的 PUCCH格式 3资源上反 馈相应的 HARQ-ACK。 Reusing the received PDCCH/transmission power control (TPC) corresponding to the PDCCH with the DAI value equal to 1 as the ACK/NACK resource indicator (ARI), and determining the corresponding PUCCH format 3 resource in combination with the PUCCH format 3 resource configured in the upper layer, and then The corresponding HARQ-ACK is fed back on the determined PUCCH format 3 resource.
根据预设的 ARI值以及高层配置的 PUCCH格式 3 资源确定相应的 PUCCH格式 3 资源, 然后在所确定的 PUCCH格式 3 资源上反馈相应的 HARQ-ACK消息。 The corresponding PUCCH format 3 resource is determined according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then the corresponding HARQ-ACK message is fed back on the determined PUCCH format 3 resource.
该发送方法还包括:  The sending method further includes:
当在所述绑定窗内接收到一个没有 PDCCH的 PDSCH时,终端根据预设 的 ARI值以及高层配置的 PUCCH格式 3资源选择相应的 PUCCH格式 3资 源, 然后在所述相应的 PUCCH格式 3资源上反馈相应的 HARQ-ACK消息。  When receiving a PDSCH without a PDCCH in the binding window, the terminal selects a corresponding PUCCH format 3 resource according to a preset ARI value and a high-level configured PUCCH format 3 resource, and then the corresponding PUCCH format 3 resource. The corresponding HARQ-ACK message is fed back.
对没有 PDCCH的 PDSCH的 HARQ-ACK和 DAI值等于 1的 PDCCH所 对应的 PDSCH 的 HARQ-ACK 进行空间绑定操作后得到 2 比特的 先约定好的 PUCCH资源上发送。 Performing a spatial binding operation on a HARQ-ACK of a PDSCH without a PDCCH and a HARQ-ACK of a PDSCH corresponding to a PDCCH having a DAI value of 1 to obtain a 2-bit Send on the agreed PUCCH resource first.
其中:所述预先约定好的 PUCCH资源是与所述 DAI值等于 1的 PDCCH 对应的 PUCCH资源。  The pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
其中: 釆用 PUCCH 格式 lb 联合信道选择的方式反馈所述相应的 HARQ-ACK的步骤包括:  Wherein: the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner includes:
釆用与 Rel-10 频分双工 (FDD ) 系统下的 PUCCH格式 lb联合信道选 择相同的方式反馈相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
其中: 釆用 PUCCH 格式 lb 联合信道选择的方式反馈所述相应的 HARQ-ACK的步骤包括:  Wherein: the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner includes:
釆用与 Rel-10 时分双工 ( TDD ) 系统配置为 1个服务小区时的 PUCCH 格式 lb联合信道选择相同方式反馈相应的 HARQ-ACK消息。  The PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell selects the corresponding HARQ-ACK message in the same manner.
一种时分双工系统中应答消息的发送系统, 适用于被配置为釆用物理上 行控制信道 ( PUCCH ) 格式 3 来发送混合自动重传请求应答消息 ( HARQ-ACK ) 的终端中, 该发送系统包括第一装置和第二装置, 其中: 所述第一装置设置成: 在绑定窗内接收来自服务小区的物理下行共享信 道( PDSCH ) ;  A transmitting system for answering messages in a time division duplex system, suitable for use in a terminal configured to transmit a hybrid automatic repeat request response message (HARQ-ACK) using a Physical Uplink Control Channel (PUCCH) format 3, the transmitting system The first device and the second device are included, where: the first device is configured to: receive a physical downlink shared channel (PDSCH) from a serving cell in a binding window;
所述第二装置设置成: 当所述第一装置在所述绑定窗内仅接收到主服务 小区中的一个没有 PDCCH的 PDSCH和一个下行分配索引 ( DAI )值等于 1 的 PDCCH所对应的 PDSCH时, 按照以下方式之一反馈相应的 HARQ-ACK 消息:  The second device is configured to: when the first device receives, in the binding window, only one PDSCH without a PDCCH in the primary serving cell and a PDCCH corresponding to a downlink allocation index (DAI) value equal to 1 In the PDSCH, the corresponding HARQ-ACK message is fed back in one of the following ways:
釆用 PUCCH格式 3来反馈相应的 HARQ-ACK;  PUUsing PUCCH format 3 to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb来反馈相应的 HARQ-ACK;  PUUsing the PUCCH format lb to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb联合信道选择的方式来反馈相应的 HARQ-ACK。 其中: 所述第二装置设置成按照以下方式釆用 PUCCH格式 3来反馈相 应的 HARQ-ACK:  PU The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK. Wherein: the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
将接收到的 DAI值等于 1的 PDCCH对应的传输功率控制 (TPC )重用 为 ACK/NACK资源指示符( ARI ) , 并结合高层配置的 PUCCH格式 3资源 来确定相应的 PUCCH格式 3资源,然后在所确定的 PUCCH格式 3资源上反 馈相应的 HARQ-ACK消息。 Reusing the received transmission power control (TPC) corresponding to the PDCCH with the DAI value equal to 1 as the ACK/NACK resource indicator (ARI), and combining the PUCCH format 3 resources configured by the upper layer The corresponding PUCCH format 3 resource is determined, and then the corresponding HARQ-ACK message is fed back on the determined PUCCH format 3 resource.
其中: 所述第二装置设置成按照以下方式釆用 PUCCH格式 3来反馈相 应的 HARQ-ACK:  Wherein: the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
根据预设的 ARI值以及高层配置的 PUCCH格式 3 资源确定相应的 Determine the corresponding ARI value according to the preset ARI value and the PUCCH format 3 resource of the high-level configuration.
PUCCH格式 3 资源, 然后在所确定的 PUCCH格式 3 资源上反馈相应的 HARQ-ACK消息。 The PUCCH format 3 resource then feeds back the corresponding HARQ-ACK message on the determined PUCCH format 3 resource.
其中: 所述第二装置还设置成: 当所述终端配置为釆用 PUCCH格式 3 来反馈相应的 HARQ-ACK,且所述第一装置在所述绑定窗内接收到一个没有 PDCCH的 PDSCH时, 根据预设的 ARI值以及高层配置的 PUCCH格式 3资 源选择相应的 PUCCH格式 3资源,然后在所述相应的 PUCCH格式 3资源上 反馈相应的 HARQ-ACK消息。  The second device is further configured to: when the terminal is configured to use PUCCH format 3 to feed back a corresponding HARQ-ACK, and the first device receives a PDSCH without a PDCCH in the binding window. The corresponding PUCCH format 3 resource is selected according to the preset ARI value and the high-level configured PUCCH format 3 resource, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
其中: 所述第二装置设置成按照以下方式釆用 PUCCH格式 lb来反馈相 应的 HARQ-ACK:  Wherein: the second device is configured to use the PUCCH format lb to feed back the corresponding HARQ-ACK in the following manner:
对没有 PDCCH的 PDSCH的 HARQ-ACK和 DAI值等于 1的 PDCCH所 对应的 PDSCH 的 HARQ-ACK 进行空间绑定操作后得到 2 比特的 预先约定好的 PUCCH资源上发送。  The HARQ-ACK of the PDSCH without the PDCCH and the HARQ-ACK of the PDSCH corresponding to the PDCCH with the DAI value of 1 are spatially bound to obtain a 2-bit pre-agreed PUCCH resource.
其中:所述预先约定好的 PUCCH资源是与所述 DAI值等于 1的 PDCCH 对应的 PUCCH资源。  The pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
其中: 所述第二装置设置成按照以下方式釆用 PUCCH格式 lb联合信道 选择的方式反馈所述相应的 HARQ-ACK:  Wherein: the second device is configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
釆用与 Rel-10 频分双工 (FDD ) 系统下的 PUCCH格式 lb联合信道选 择相同的方式反馈所述相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
其中: 所述第二装置设置成按照以下方式釆用 PUCCH格式 lb联合信道 选择的方式反馈所述相应的 HARQ-ACK:  Wherein: the second device is configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
釆用与 Rel-10 时分双工 (TDD ) 系统配置为 1个服务小区时的 PUCCH 格式 lb联合信道选择相同方式反馈所述相应的 HARQ-ACK消息。 釆用上述技术方案后,为在只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH时的终端提供了反馈 HARQ-ACK 应答消息的解决方案, 实现简单, 适用性强, 并且不会对现有协议造成影响。 附图概述 The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell. After the above technical solution is adopted, a solution for feeding back a HARQ-ACK response message is provided for a terminal that only receives a PDSCH without a PDCCH and a PDCCH with a DAI value equal to 1 to the autonomous serving cell, which is simple to implement and has high applicability. And will not affect existing agreements. BRIEF abstract
图 1为 HARQ-ACK bundling模式下的示意图;  Figure 1 is a schematic diagram of the HARQ-ACK bundling mode;
图 2是 HARQ-ACK multiplexing模式下的示意图;  2 is a schematic diagram of a HARQ-ACK multiplexing mode;
图 3是本发明应用示例 1中终端釆用方式 1-1反馈 HARQ-ACK应答消息 的示意图;  3 is a schematic diagram of a terminal use mode 1-1 feedback HARQ-ACK response message in the application example 1 of the present invention;
图 4是本发明应用示例 2中终端釆用方式 1-1反馈 HARQ-ACK应答消息 的示意图;  4 is a schematic diagram of a terminal use mode 1-1 feedback HARQ-ACK response message in Application Example 2 of the present invention;
图 5是本发明应用示例 3中终端釆用方式 1-2反馈 HARQ-ACK应答消息 的另示意图;  FIG. 5 is another schematic diagram of the terminal use mode 1-2 feedback HARQ-ACK response message in the application example 3 of the present invention; FIG.
图 6是本发明应用示例 4中终端釆用方式 2反馈 HARQ-ACK应答消息的 示意图;  6 is a schematic diagram of a terminal use mode 2 feedback HARQ-ACK response message in the application example 4 of the present invention;
图 7是本发明应用示例 5中终端釆用方式 3-1反馈 HARQ-ACK应答消息 的示意图;  7 is a schematic diagram of a terminal use mode 3-1 feedback HARQ-ACK response message in the application example 5 of the present invention;
图 8是本发明应用示例 6中终端釆用方式 3-1反馈 HARQ-ACK应答消息 的示意图;  8 is a schematic diagram of a terminal using mode 3-1 feedback HARQ-ACK response message in Application Example 6 of the present invention;
图 9是本发明应用示例 7中终端釆用方式 3-1反馈 HARQ-ACK应答消息 的示意图;  9 is a schematic diagram of a terminal using mode 3-1 feedback HARQ-ACK response message in the application example 7 of the present invention;
图 10是本发明应用示例 8中终端釆用方式 3-2反馈 HARQ-ACK应答消 息的示意图;  10 is a schematic diagram of a terminal use mode 3-2 feedback HARQ-ACK response message in the application example 8 of the present invention;
图 11是本发明应用示例 9中终端釆用方式 3-2反馈 HARQ-ACK应答消 息的示意图。 本发明的较佳实施方式 11 is a schematic diagram of a terminal use mode 3-2 feedback HARQ-ACK response message in the application example 9 of the present invention. Preferred embodiment of the invention
为使本发明的目的、 技术方案和优点更加清楚明白, 下文中将结合附图 对本发明的实施例进行详细说明。 需要说明的是, 在不冲突的情况下, 本申 请中的实施例及实施例中的特征可以相互任意组合。  In order to make the objects, the technical solutions and the advantages of the present invention more clearly, the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that, in the case of no conflict, the features in the embodiments and the embodiments of the present application may be arbitrarily combined with each other.
在本实施例中, 时分双工系统中应答消息的发送方法, 适用于被配置为 釆用 PUCCH格式 3来反馈 HARQ-ACK应答消息的终端中, 包括:  In this embodiment, the method for sending a response message in the time division duplex system is applicable to a terminal configured to use the PUCCH format 3 to feed back a HARQ-ACK response message, including:
在绑定窗内接收来自服务小区的 PDSCH;  Receiving a PDSCH from a serving cell in a binding window;
当在一绑定窗内只接收到来自主服务小区的一个没有 PDCCH的 PDSCH 和一个 DAI值等于 1的 PDCCH所对应的 PDSCH时, 该终端釆用以下任意 一种方式来反馈所述 HARQ-ACK应答消息:  When only one PDSCH without PDCCH and one PDSCH corresponding to the PDCCH with a DAI value equal to 1 are received in a bound window, the terminal uses any of the following methods to feed back the HARQ-ACK response. Message:
方式 3 : 釆用 PUCCH 格式 lb 联合信道选择的方式来反馈相应的 HARQ-ACK应答消息。 Mode 3: The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK response message.
其中, 上述绑定窗包括时频二维资源, 时域上指根据上下行子帧配置一 个上行子帧对应的多个下行子帧, 频域上指配置给终端的服务小区或载波。  The binding window includes a time-frequency two-dimensional resource, and the time domain refers to a plurality of downlink subframes corresponding to one uplink subframe according to the uplink and downlink subframes, and the frequency domain refers to a serving cell or a carrier that is configured for the terminal.
其中, 上述方式 1具体包括方式 1-1和方式 1-2: The foregoing method 1 specifically includes the mode 1-1 and the mode 1-2:
方式 1-1 : 该终端根据接收到的 DAI值等于 1的 PDCCH对应的 TPC以 及高层配置的 PUCCH format 3资源来确定 PUCCH format 3资源 , 然后 在该确定的 PUCCH format 3资源 n CH上反馈相应的 HARQ-ACK应答消息。 其中, p表示天线端口号, 其取值为 0或 1。 Mode 1-1: The terminal determines the PUCCH format 3 resource according to the received TPC corresponding to the PDCCH with the DAI value equal to 1 and the PUCCH format 3 resource configured by the upper layer, and then feeds back corresponding information on the determined PUCCH format 3 resource n CH HARQ-ACK response message. Where p is the antenna port number, which is 0 or 1.
其中,根据接收到的 DAI值等于 1的 PDCCH对应的 TPC以及高层配置 的 PUCCH format 3资源来确定相应的 PUCCH format 3资源 n CH是指: 将接 收到的 DAI值等于 1的 PDCCH对应的 TPC的值作为 ARI的值,结合高层配 置的 PUCCH format 3资源来确定 PUCCH format 3资源 n CH。 由于该 TPC值已作为 API的值使用, 相应地, 终端相当于没有 TPC命 令。 The determining the corresponding PUCCH format 3 resource n CH according to the received TPC corresponding to the PDCCH with the DAI value equal to 1 and the PUCCH format 3 resource configured by the upper layer refers to: the TPC corresponding to the PDCCH that receives the received DAI value equal to 1. The value is used as the value of the ARI, and the PUCCH format 3 resource n CH is determined in combination with the PUCCH format 3 resource of the high layer configuration. Since the TPC value has been used as the value of the API, accordingly, the terminal is equivalent to no TPC life. Order.
方式 1-2: 该终端根据预设的 ARI值以及高层配置的 PUCCH format 3资 源来选择相应的 PUCCH format 3资源, 然后在所选择的 PUCCH format 3资 源上反馈相应的 HARQ-ACK应答消息。 且相应的绑定窗中有 SPS 子帧时, 终端都釆用方式 1-2 来反馈相应的 HARQ-ACK应答消息。  Manner 1-2: The terminal selects a corresponding PUCCH format 3 resource according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then feeds back a corresponding HARQ-ACK response message on the selected PUCCH format 3 resource. When there is an SPS subframe in the corresponding binding window, the terminal uses mode 1-2 to feed back the corresponding HARQ-ACK response message.
此外, 上述方式 2具体包括: 该终端先对接收到的上述没有 PDCCH的 PDSCH和 DAI值等于 1的 PDCCH对应的 PDSCH的 HARQ-ACK应答消息 进行空间绑定操作 ( Spatial bundling )后, 得到 2比特的 HARQ-ACK应答消 息, 然后釆用 PUCCH format lb在预先约定好的 PUCCH format la/lb资源上 发送经过了空间绑定后得到的 2比特 HARQ-ACK应答消息。 In addition, the foregoing method 2 specifically includes: the terminal first performs spatial binding operation ( Spatial Bundling) on the received PDSCH without the PDCCH and the PDSCH corresponding to the PDCCH corresponding to the PDCCH with the DAI value equal to 1, and obtains 2 bits. The HARQ-ACK response message is then sent by the PUCCH format lb on the pre-agreed PUCCH format la/lb resource to obtain the 2-bit HARQ-ACK response message obtained after spatial binding.
其中,该预先约定好的 PUCCH format la/lb资源可以是与上述 DAI值等 于 1的 PDCCH对应的 PUCCH资源。  The pre-agreed PUCCH format la/lb resource may be a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
另外, 上述方式 3具体包括方式 3-1及方式 3-2: In addition, the foregoing manner 3 specifically includes the mode 3-1 and the mode 3-2:
方式 3-1: 所述终端釆用与 Rel-10 FDD系统下的 PUCCH格式 lb联合信 道选择相同的方式反馈相应的 HARQ-ACK消息;  Mode 3-1: The terminal feeds back the corresponding HARQ-ACK message in the same manner as the PUCCH format lb joint channel selection in the Rel-10 FDD system;
方式 3-2: 所述终端釆用与 Rel-10 TDD 系统配置为 1 个月良务小区时的 Mode 3-2: When the terminal is configured with the Rel-10 TDD system as a one-month service cell
PUCCH格式 lb联合信道选择相同方式反馈相应的 HARQ-ACK消息。 The PUCCH format lb joint channel selects the same manner to feed back the corresponding HARQ-ACK message.
其中, 釆用本方式时, 下上行子帧配置值 M根据终端中配置的上下行子 帧配置确定。  When the current mode is used, the lower uplink subframe configuration value M is determined according to the uplink and downlink subframe configuration configured in the terminal.
相应地, 本发明实施例还提供了一种时分双工系统中应答消息的发送系 统, 适用于被配置为釆用 PUCCH格式 3来发送 HARQ-ACK应答消息的终 端中, 所述发送系统包括第一装置和第二装置, 其中:  Correspondingly, the embodiment of the present invention further provides a sending system for a response message in a time division duplex system, which is applicable to a terminal configured to transmit a HARQ-ACK response message by using PUCCH format 3, where the sending system includes a device and a second device, wherein:
所述第一装置设置成: 在绑定窗内接收来自服务小区的 PDSCH; 所述第二装置设置成: 当所述第一装置在所述绑定窗内仅接收到主服务 小区中的一个没有 PDCCH的 PDSCH和一个 DAI值等于 1的 PDCCH所对应 的 PDSCH时, 按照以下方式之一反馈相应的 HARQ-ACK应答消息: The first device is configured to: receive a PDSCH from a serving cell in a binding window; The second device is configured to: when the first device receives only one PDSCH without a PDCCH in the primary serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1 in the binding window, according to the following One of the modes feeds back the corresponding HARQ-ACK response message:
方式 3 : 釆用 PUCCH 格式 lb 联合信道选择的方式来反馈相应的 HARQ-ACK应答消息。 Mode 3: The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK response message.
较优地, 所述第二装置设置成按照以下方式釆用 PUCCH格式 3来反馈 相应的 HARQ-ACK:  Preferably, the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
将接收到的所述 DAI值等于 1的 PDCCH对应的传输功率控制 ( TPC ) 重用为 ACK/NACK资源指示符(ARI ) , 并结合高层配置的 PUCCH格式 3 资源来确定相应的 PUCCH格式 3资源, 然后在所述相应的 PUCCH格式 3 资源上反馈相应的 HARQ-ACK消息。  Reusing the received PDCCH/Transmission Power Control (TPC) corresponding to the PDCCH whose DAI value is equal to 1 as an ACK/NACK resource indicator (ARI), and determining the corresponding PUCCH format 3 resource by combining the PUCCH format 3 resources configured by the upper layer, A corresponding HARQ-ACK message is then fed back on the corresponding PUCCH format 3 resource.
较优地, 所述第二装置设置成按照以下方式釆用 PUCCH格式 3来反馈 相应的 HARQ-ACK:  Preferably, the second device is configured to use the PUCCH format 3 to feed back the corresponding HARQ-ACK in the following manner:
根据预设的 ARI值以及高层配置的 PUCCH格式 3 资源确定相应的 PUCCH格式 3资源, 然后在所述相应的 PUCCH格式 3资源上反馈相应的 HARQ-ACK消息。  The corresponding PUCCH format 3 resource is determined according to the preset ARI value and the PUCCH format 3 resource configured by the upper layer, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
较优地, 所述系统还包括第三装置:  Preferably, the system further comprises a third device:
所述第三装置设置成: 当所述第一装置在所述绑定窗内接收到一个没有 The third device is configured to: when the first device receives one in the bound window
PDCCH的 PDSCH时, 根据预设的 ARI值以及高层配置的 PUCCH格式 3资 源选择相应的 PUCCH格式 3资源,然后在所述相应的 PUCCH格式 3资源上 反馈相应的 HARQ-ACK消息。 In the PDSCH of the PDCCH, the corresponding PUCCH format 3 resource is selected according to the preset ARI value and the PUCCH format 3 resource configured in the upper layer, and then the corresponding HARQ-ACK message is fed back on the corresponding PUCCH format 3 resource.
较优地, 所述第二装置还设置成按照以下方式釆用 PUCCH格式 lb来反 馈相应的 HARQ-ACK: Preferably, the second device is further configured to use the PUCCH format lb to feedback the corresponding HARQ-ACK in the following manner:
对所述没有 PDCCH的 PDSCH的 HARQ-ACK和所述 DAI值等于 1的 PDCCH所对应的 PDSCH的 HARQ-ACK进行空间绑定操作后, 将得到的 2 比特的 HARQ-ACK消息通过 PUCCH格式 lb方式在预先约定好的 PUCCH 资源上发送。 After spatially binding the HARQ-ACK of the PDSCH without the PDCCH and the HARQ-ACK of the PDSCH corresponding to the PDCCH with the DAI value equal to 1, the obtained 2 The bit HARQ-ACK message is transmitted on the pre-agreed PUCCH resource by the PUCCH format lb mode.
较优地, 所述预先约定好的 PUCCH 资源是与所述 DAI值等于 1 的 PDCCH对应的 PUCCH资源。  Preferably, the pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
较优地, 所述第二装置还设置成按照以下方式釆用 PUCCH格式 lb联合 信道选择的方式反馈所述相应的 HARQ-ACK: Preferably, the second device is further configured to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
釆用与 Rel-10 频分双工 (FDD ) 系统下的 PUCCH格式 lb联合信道选 择相同的方式反馈所述相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
较优地, 所述第二装置设置成按照以下方式釆用 PUCCH格式 lb联合信 道选择的方式反馈所述相应的 HARQ-ACK:  Preferably, the second means is arranged to feed back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner as follows:
釆用与 Rel-10 TDD系统配置为 1个服务小区时的 PUCCH格式 lb联合 信道选择相同方式反馈所述相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when the Rel-10 TDD system is configured as one serving cell.
下面将结合附图详细描述本发明的应用实例。 Application examples of the present invention will be described in detail below with reference to the accompanying drawings.
应用示例 1  Application example 1
如图 3所示, 基站给某终端配置了 2个服务小区: 主服务小区和辅服务 小区, 且配置了终端釆用 PUCCH format 3来反馈 HARQ-ACK应答消息。  As shown in FIG. 3, the base station configures two serving cells for the terminal: the primary serving cell and the secondary serving cell, and configures the terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH,且假定 DAI值等 于 1的 PDCCH上的 TPC取值为 "01" 。  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, and assumes that the TPC value on the PDCCH with a DAI value equal to 1 is "01". " .
假定 ARI的取值与 PUCCH format 3的资源对应关系如表 1所示。  Assume that the correspondence between the value of ARI and the resource of PUCCH format 3 is as shown in Table 1.
表 1 ARI的取值与 PUCCH format 3的资源对应关系表  Table 1 Table of relationship between ARI values and PUCCH format 3 resources
Figure imgf000014_0001
ΊΟ' 第三个高层配置的 PUCCH资源
Figure imgf000014_0001
ΊΟ' The third high-level configuration of PUCCH resources
Ί Ι' 第四个高层配置的 PUCCH资源 Ί Ι' The fourth high-level configuration of PUCCH resources
当终端釆用上述方式 1-1来反馈 HARQ-ACK应答消息, 在方式 1-1中, DAI值等于 1的 PDCCH的 TPC将重用为 ARI, 也就是说, 终端根据接收到 的 DAI值等于 1的 PDCCH对应的 TPC以及高层配置的 PUCCH format 3资 源来确定 PUCCH format 3资源。 根据表 1可知, 终端将釆用第二个高层配置 的 PUCCH format 3资源在 PUCCH format 3上反馈相应的 HARQ-ACK应答消 息。  When the terminal uses the foregoing mode 1-1 to feed back the HARQ-ACK response message, in the mode 1-1, the TPC of the PDCCH with the DAI value equal to 1 is reused as the ARI, that is, the terminal is equal to 1 according to the received DAI value. The TPC corresponding to the PDCCH and the PUCCH format 3 resource configured by the upper layer determine the PUCCH format 3 resource. According to Table 1, the terminal will use the PUCCH format 3 resource of the second higher layer to feed back the corresponding HARQ-ACK response message on PUCCH format 3.
应用示例 2  Application example 2
如图 4 所示, 基站给某终端配置了主服务小区, 且配置了终端釆用 PUCCH format 3来反馈 HARQ-ACK应答消息。  As shown in FIG. 4, the base station configures a primary serving cell for a terminal, and configures the terminal to use PUCCH format 3 to feed back a HARQ-ACK response message.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH,且假定 DAI值等 于 1的 PDCCH上的 TPC取值为 "01" 。  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1, and assumes that the TPC value on the PDCCH with a DAI value equal to 1 is "01". " .
假定 ARI的取值与 PUCCH format 3的资源对应关系如表 1所示。  Assume that the correspondence between the value of ARI and the resource of PUCCH format 3 is as shown in Table 1.
当终端釆用上述方式 1-1来反馈 HARQ-ACK应答消息, 在方式 1-1中, DAI值等于 1的 PDCCH的 TPC将重用为 ARI, 也就是说, 终端根据接收到 的 DAI值等于 1的 PDCCH对应的 TPC以及高层配置的 PUCCH format 3资 源来确定 PUCCH format 3资源。 根据表 1可知, 终端将釆用第二个高层配置 的 PUCCH format 3资源在 PUCCH format 3上反馈相应的 HARQ-ACK应答消 息。  When the terminal uses the foregoing mode 1-1 to feed back the HARQ-ACK response message, in the mode 1-1, the TPC of the PDCCH with the DAI value equal to 1 is reused as the ARI, that is, the terminal is equal to 1 according to the received DAI value. The TPC corresponding to the PDCCH and the PUCCH format 3 resource configured by the upper layer determine the PUCCH format 3 resource. According to Table 1, the terminal will use the PUCCH format 3 resource of the second higher layer to feed back the corresponding HARQ-ACK response message on PUCCH format 3.
从实施例 1和 2可以看出, 不管终端配置了几个服务小区, 只要其配置 主服务小区的一个没有 PDCCH的 PDSCH和一个 DAI值等于 1的 PDCCH对 应的 PDSCH时, 其反馈 HARQ-ACK的方式都是相同的。 因此, 在后续的实 施例中, 不再说明终端配置了多少个服务小区。  It can be seen from Embodiments 1 and 2 that no matter how many serving cells are configured in the terminal, as long as it configures a PDSCH without a PDCCH and a PDSCH corresponding to a PDCCH with a DAI value equal to 1 of the primary serving cell, it feeds back the HARQ-ACK. The way is the same. Therefore, in the following embodiments, it is no longer described how many serving cells are configured by the terminal.
同时,基站需要在调度的时候避免上述终端使用的 PUCCH format 3资源 与其他终端使用的 PUCCH format 3资源发生冲突。 应用示例 3 At the same time, the base station needs to prevent the PUCCH format 3 resource used by the terminal from colliding with the PUCCH format 3 resource used by other terminals during scheduling. Application example 3
基站给某终端配置了釆用 PUCCH format 3来反馈 HARQ-ACK应答消息。 假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH,且 ARI的取值与 PUCCH format 3 的资源对应关系如表 1所示。  The base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message. It is assumed that in a certain binding window, the terminal only receives a PDSCH without PDCCH and a PDCCH with a DAI value equal to 1 from the autonomous serving cell, and the corresponding relationship between the value of the ARI and the resource of PUCCH format 3 is as shown in Table 1.
当终端釆用上述方式 1-2来反馈 HARQ-ACK应答消息时,终端根据默认 的 ARI值以及高层配置的 PUCCH format 3资源来确定 PUCCH format 3资源, 假设默认的 ARI取值为 "00" , 则根据表 1可知, 终端将釆用第一个高层配 置的 PUCCH format 3资源在 PUCCH format 3上反馈相应的 HARQ-ACK应答 消息。  When the terminal uses the foregoing mode 1-2 to feed back the HARQ-ACK response message, the terminal determines the PUCCH format 3 resource according to the default ARI value and the PUCCH format 3 resource configured by the upper layer, and assumes that the default ARI value is "00". According to Table 1, the terminal will feed back the corresponding HARQ-ACK response message on PUCCH format 3 by using the PUCCH format 3 resource of the first higher layer configuration.
考虑到终端有可能在某些子帧上发生 DTX ( Discontinuous Transmission, 不连续发送), 也就是基站在某子帧上调度了 PDSCH, 但是由于终端没有检 测到相应的 PDCCH, 因而也就无法检测到相应的 PDSCH。  Considering that the terminal may have DTX (Discontinuous Transmission) in some subframes, that is, the base station schedules the PDSCH on a certain subframe, but since the terminal does not detect the corresponding PDCCH, it cannot detect it. The corresponding PDSCH.
如图 5所示, 假设基站调度了一个没有 PDCCH的 PDSCH、 一个 DAI 值等于 1的 PDCCH对应的 PDSCH和一个 DAI值等于 2的 PDCCH对应的 PDSCH。 在此种情况下, 如果终端没有在某些子帧上发生 DTX, 则终端将在 DAI值等于 2的 ARI对应的 PUCCH format 3资源上发送相应的 HARQ-ACK 应答消息。 但是如图 5所示, 假设终端没有检测到 DAI值等于 2的 PDCCH, 而只是接收到一个没有 PDCCH的 PDSCH和一个 DAI值等于 1的 PDCCH对 应的 PDSCH, 则该终端将釆用默认的 ARI对应的 PUCCH format 3资源发送 相应的 HARQ-ACK应答消息。 对于这种情况, 由于基站侧本以为终端会釆 用 DAI值等于 2的 ARI对应的 PUCCH format 3资源发送相应的 HARQ-ACK 应答消息,而实际上终端是釆用了默认 ARI对应的 PUCCH format 3资源来发 送相应的 HARQ-ACK应答消息, 基站就需要对这两种情况进行盲检测。 而 且, 这时候还可能会有资源冲突的情况发生, 因为很有可能默认 ARI对应的 PUCCH资源基站已经被分配给其他终端了。 为解决可能的资源冲突问题, 可 以规定, 当子帧中有 SPS PDSCH时, 如果终端配置为釆用 PUCCH format 3 来反馈 HARQ-ACK的, 无论是否收到 DAI值为 2的 PDSCH, 都使用默认 ARI对应的 PUCCH format 3资源来发送相应的 HARQ-ACK应答消息。 应用示例 4 As shown in FIG. 5, it is assumed that the base station schedules a PDSCH without a PDCCH, a PDSCH corresponding to a PDCCH having a DAI value equal to 1, and a PDSCH corresponding to a PDCCH having a DAI value equal to 2. In this case, if the terminal does not generate DTX on some subframes, the terminal will send a corresponding HARQ-ACK response message on the PUCCH format 3 resource corresponding to the ARI with the DAI value equal to 2. However, as shown in FIG. 5, if the terminal does not detect the PDCCH with the DAI value equal to 2, but only receives a PDSCH without the PDCCH and a PDSCH corresponding to the PDCCH with the DAI value equal to 1, the terminal will use the default ARI corresponding. The PUCCH format 3 resource sends a corresponding HARQ-ACK response message. In this case, the base station side considers that the terminal sends a corresponding HARQ-ACK response message to the PUCCH format 3 resource corresponding to the ARI with the DAI value equal to 2. In fact, the terminal uses the PUCCH format 3 corresponding to the default ARI. The resource sends a corresponding HARQ-ACK response message, and the base station needs to blindly detect both cases. Moreover, there may be a situation of resource conflict at this time, because it is very likely that the PUCCH resource base station corresponding to the default ARI has been allocated to other terminals. To solve the possible resource conflict problem, it may be stipulated that when the SPS PDSCH is in the subframe, if the terminal is configured to use the PUCCH format 3 to feed back the HARQ-ACK, the default is used regardless of whether the PDSCH with the DAI value of 2 is received. The PUCCH format 3 resource corresponding to the ARI transmits a corresponding HARQ-ACK response message. Application example 4
如图 6 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息。  As shown in Figure 6, the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆上述方 式 2来反馈 HARQ-ACK应答消息时,终端先对接收到的一个没有 PDCCH的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH的 HARQ-ACK应答 消息进行空间绑定操作 ( spatial bundling )后得到 2比特的 HARQ-ACK应答 消息, 然后釆用 PUCCH format lb在与包含 DAI值等于 1的 PDCCH对应的 PUCCH资源发送所述经过了空间绑定操作后得到的 2比特 HARQ-ACK应答 消息。  It is assumed that, in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1. When the terminal feeds back the HARQ-ACK response message in the above manner 2, the terminal First, a spatially bound BFD of a PDSCH without a PDCCH and a HARQ-ACK response message of a PDSCH corresponding to a PDCCH with a DAI value equal to 1 is obtained, and then a 2-bit HARQ-ACK response message is obtained, and then used. The PUCCH format lb transmits the 2-bit HARQ-ACK response message obtained after the spatial bonding operation is performed on the PUCCH resource corresponding to the PDCCH including the DAI value equal to 1.
其中, 与 DAI值等于 1的 PDCCH对应的 PUCCH资源根据与 DAI值等 于 1的 PDCCH的最小 CCE ( Control Channel Element, 控制信道元素) 索引 的隐含映射关系来确定。  The PUCCH resource corresponding to the PDCCH with the DAI value equal to 1 is determined according to an implicit mapping relationship of a minimum CCE (Control Channel Element) index of the PDCCH with a DAI value equal to 1.
应用示例 5  Application example 5
如图 7 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息,且根据上下行子帧配置确定 M=4 ,主服务小区配置为 双码字流的传输模式。  As shown in Figure 7, the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message, and determines M=4 according to the uplink and downlink subframe configuration, and configures the primary serving cell as the transmission mode of the dual codeword stream.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆用上述 方式 3-1来反馈 HARQ-ACK应答消息, 也就是釆用与 Rel-10 FDD系统下的 PUCCH格式 lb联合信道选择类似的方式反馈所述相应的 HARQ-ACK消息, 具体来说:  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1. When the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
终端将 SPS 子帧对应的两个码字流的 HARQ-ACK应答消息映射为 HARQ-ACK(O)和 HARQ-ACK(l), 将 DAI=1的 PDCCH对应 PDSCH的两个 码字流的 HARQ-ACK应答消息映射为 HARQ-ACK(2)和 HARQ-ACK(3) , 由 于一共有 4个 HARQ-ACK应答消息, 因此, 终端选择表 2所示的 A=4的映 射表, 根据 {HARQ-ACK(O), HARQ-ACK(l), HARQ-ACK(2), HARQ-ACK(3)} 的反馈状态, 确定(选择)一个信道《^CCT^。b(0)b(l), 然后在该选择的《 信道上将选择的 b(0)b(l)发送出去。 The terminal maps the HARQ-ACK response message of the two codeword streams corresponding to the SPS subframe to HARQ-ACK (0) and HARQ-ACK (1), and the PDCCH of DAI=1 corresponds to the HARQ of the two codeword streams of the PDSCH. - The ACK response message is mapped to HARQ-ACK (2) and HARQ-ACK (3). Since there are 4 HARQ-ACK response messages in total, the terminal selects the mapping table of A=4 shown in Table 2, according to {HARQ -ACK(O), HARQ-ACK(l), HARQ-ACK(2), HARQ-ACK(3)} The feedback status determines (selects) a channel "^ CCT ^. b(0)b(l), then the selected b(0)b(l) is sent out on the selected "channel."
Rel-10 FDD系统 PUCCH format lb联合信道选择时 A=4的映射表  Rel-10 FDD system PUCCH format lb joint channel selection A=4 mapping table
Figure imgf000018_0001
应用示例 6
Figure imgf000018_0001
Application example 6
如图 8 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息,且根据上下行子帧配置确定 M=4,主服务小区配置为 双码字流的传输模式。 As shown in Figure 8, the base station configures a terminal with PUCCH format 3 for feedback. The HARQ-ACK responds to the message, and determines M=4 according to the uplink and downlink subframe configuration, and the primary serving cell is configured as a transmission mode of the dual codeword stream.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆用上述 方式 3-1来反馈 HARQ-ACK应答消息, 也就是釆用与 Rel-10 FDD系统下的 PUCCH格式 lb联合信道选择类似的方式反馈所述相应的 HARQ-ACK消息, 具体来说:  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1. When the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
对于 SPS子帧, 由于其在实际调度的时候只有一个码字流, 因此虽然主 服务小区配置为双码字流的传输模式, 终端将 SPS子帧对应的 HARQ-ACK 应答消息映射为 HARQ-ACK)^ ,将 DAI=1的 PDCCH对应 PDSCH的两个码 一共有 3个 HARQ-ACK应答消息, 因此, 终端选择表 3所示的 A=3的映射 表, 根据{11^ ( 0 0), 1^( 0 1), 1^( 0;2) }的反馈状态, 确定 (选择)一个信道《^^和 b(0)b(l), 然后在该选择的《^^信道上将选择的 b(0)b(l)发送出去。  For the SPS subframe, since there is only one codeword stream in the actual scheduling, although the primary serving cell is configured as the transmission mode of the dual codeword stream, the terminal maps the HARQ-ACK response message corresponding to the SPS subframe to the HARQ-ACK. ^^, the DAI=1 PDCCH corresponds to the two codes of the PDSCH, and there are three HARQ-ACK response messages. Therefore, the terminal selects the mapping table of A=3 shown in Table 3, according to {11^(0 0), 1^( 0 1), 1^( 0; 2) } feedback state, determine (select) a channel "^^ and b(0)b(l), and then select on the selected "^^ channel" The b(0)b(l) is sent out.
表 3 Rel-10 FDD系统 PUCCH format lb联合信道选择时 A=3的映射表  Table 3 Rel-10 FDD system PUCCH format lb Joint channel selection A=3 mapping table
Figure imgf000019_0001
Figure imgf000019_0001
应用示例 5和 6的不同之处在于对于 SPS子帧的处理,在应用示例 5中, 相当于把 SPS子帧中没有 PDSCH传输的码字流固定映射到 HARQ-ACK(l) 中去了, 在这里需要把 HARQ-ACK(l)设置为默认值(NACK或 DTX ) , 而 在应用示例 6中, 考虑到了 SPS子帧传输只包含一个码字流, 因此, SPS子 帧可以只对应一个 HARQ-ACK应答消息。 对比应用示例 5和 6 , 应用示例 6 实际反馈的 HARQ-ACK应答消息的比特数只有 3个,因而应用示例 6是优选 方案。 Application Examples 5 and 6 differ in the processing of SPS subframes, in Application Example 5, Equivalent to mapping the codeword stream without PDSCH transmission in the SPS subframe to HARQ-ACK(l). Here, HARQ-ACK(l) needs to be set to the default value (NACK or DTX), but in the application. In Example 6, it is considered that the SPS subframe transmission only contains one codeword stream, and therefore, the SPS subframe may correspond to only one HARQ-ACK response message. Comparing Application Examples 5 and 6, the application example 6 has only three bits of the HARQ-ACK response message actually fed back, and thus Application Example 6 is a preferred scheme.
应用示例 7 Application example 7
如图 9 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息,且根据上下行子帧配置确定 M=4,主服务小区配置为 单码字流的传输模式。  As shown in Figure 9, the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message, and determines M=4 according to the uplink and downlink subframe configuration, and the primary serving cell is configured as a single codeword stream transmission mode.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆用上述 方式 3-1来反馈 HARQ-ACK应答消息, 也就是釆用与 Rel-10 FDD系统下的 PUCCH格式 lb联合信道选择类似的方式反馈所述相应的 HARQ-ACK消息, 具体来说:  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1. When the terminal uses the foregoing mode 3-1 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in a similar manner to the PUCCH format lb joint channel selection under the Rel-10 FDD system, specifically:
终端将 SPS 子帧对应的一个码字流的 HARQ-ACK应答消息映射为 HARQ-ACK(O) , 将 DAI=1 的 PDCCH 对应 PDSCH 的一个码字流的 HARQ-ACK应答消息映射为 HARQ-ACK(l), 由于一共有 2个 HARQ-ACK 应答消息, 因此终端选择表 4所示的 A=2 的映射表, 根据 {HARQ-ACK(O), HARQ-ACK(l) }的反馈状态, 确定(选择)一个信道"^ ^和1)(0)1)(1), 然后 在该选择的 n CCH信道上将该选择的 b(0)b(l)发送出去。 表 4 Rel-10 FDD系统 PUCCH format lb联合信道选择时 A=2的映射表 The terminal maps the HARQ-ACK response message of one codeword stream corresponding to the SPS subframe to the HARQ-ACK (0), and maps the HARQ-ACK response message of the PDCCH corresponding to the codeword stream of the PDSCH to the HARQ-ACK message of the PDSCH. (l), since there are a total of 2 HARQ-ACK response messages, the terminal selects the mapping table of A=2 shown in Table 4, according to the feedback state of {HARQ-ACK(O), HARQ-ACK(l)}, A channel "^ ^ and 1) (0) 1) (1) is determined (selected), and then the selected b(0)b(l) is transmitted on the selected n CCH channel. Table 4 Rel-10 FDD system PUCCH format lb mapping table for A=2 when joint channel selection
Figure imgf000020_0001
„(i)
Figure imgf000020_0001
„(i)
NACK NACK/DTX 0,0  NACK NACK/DTX 0,0
DTX NACK/DTX 不发送 DTX NACK/DTX does not send
应用示例 8 Application example 8
如图 10 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息,且根据上下行子帧配置确定 M=4,主服务小区配置为 双码字流的传输模式。  As shown in Figure 10, the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message, and determines M=4 according to the uplink and downlink subframe configuration, and the primary serving cell is configured as a dual codeword stream transmission mode.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆用上述 方式 3-2来反馈 HARQ-ACK应答消息, 也就是釆用与 Rel-10 TDD系统下配 置了一个服务小区时的 PUCCH格式 lb联合信道选择相同的方式反馈所述相 应的 HARQ-ACK消息, 具体来说:  It is assumed that in a certain binding window, the terminal only receives a PDSCH without a PDCCH from the autonomous serving cell and a PDSCH corresponding to a PDCCH with a DAI value equal to 1. When the terminal uses the above manner 3-2 to feed back the HARQ-ACK response message. That is, the corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when a serving cell is configured in the Rel-10 TDD system, specifically:
终端将绑定窗内的每个子帧进行 spatial bundling, 得到 M个(在本应用 示例中 M=4 ) bundling后的 HARQ-ACK, {HARQ-ACK(O), HARQ-ACK(l), HARQ-ACK(2), HARQ-ACK(3)} , 然后选择表 5所示的 M=4的映射表, 或选 择表 6 所示的 M=4 的映射表, 根据 {HARQ-ACK(O), HARQ-ACK(l), HARQ-ACK(2), HARQ-ACK(3)}的反馈状态, 确定(选择)一个信道"^ ^和 b(0)b(l), 然后在选择的《^^信道上将所述的 b(0)b(l)发送出去。  The terminal performs spatial bundling for each subframe in the binding window to obtain M (M=4 in this application example) HARQ-ACK after bundling, {HARQ-ACK(O), HARQ-ACK(l), HARQ -ACK(2), HARQ-ACK(3)}, then select the mapping table of M=4 shown in Table 5, or select the mapping table of M=4 shown in Table 6, according to {HARQ-ACK(O) , HARQ-ACK (l), HARQ-ACK (2), HARQ-ACK (3)} feedback state, determine (select) a channel "^ ^ and b (0) b (l), and then in the selected " The b(0)b(l) is transmitted on the ^^ channel.
PUCCH format lb联合信道选择时 M=4的映射表 PUCCH format lb joint channel selection M=4 mapping table
Figure imgf000021_0001
ACK, ACK, NACK/DTX, NACK/DTX "PUCCH, 1 1,0
Figure imgf000021_0001
ACK, ACK, NACK/DTX, NACK/DTX "PUCCH, 1 1,0
ACK, NACK/DTX, ACK, ACK 〃PUCCH,3 0,1ACK, NACK/DTX, ACK, ACK 〃PUCCH, 3 0,1
NACK/DTX, NACK/DTX, NACK/DTX, NACK 1) 1,1NACK/DTX, NACK/DTX, NACK/DTX, NACK 1 ) 1,1
ACK, NACK/DTX, ACK, NACK/DTX 1) 0,1ACK, NACK/DTX, ACK, NACK/DTX 1 ) 0,1
ACK, NACK/DTX, NACK/DTX, ACK 1) 0,1ACK, NACK/DTX, NACK/DTX, ACK 1 ) 0,1
ACK, NACK/DTX, NACK/DTX, NACK/DTX 1) 1,1ACK, NACK/DTX, NACK/DTX, NACK/DTX 1 ) 1,1
NACK/DTX, ACK, ACK, ACK 〃PUCCH,3 0,1NACK/DTX, ACK, ACK, ACK 〃PUCCH, 3 0,1
NACK/DTX, NACK, DTX, DTX "PUCCH, 1 0,0 NACK/DTX, NACK, DTX, DTX "PUCCH, 1 0,0
NACK/DTX, ACK, ACK, NACK/DTX 〃PUCCH,2 1,0NACK/DTX, ACK, ACK, NACK/DTX 〃PUCCH, 2 1,0
NACK/DTX, ACK, NACK/DTX, ACK "PUCCH, 3 1,0NACK/DTX, ACK, NACK/DTX, ACK "PUCCH, 3 1,0
NACK/DTX, ACK, NACK/DTX, NACK/DTX "PUCCH, 1 0,1NACK/DTX, ACK, NACK/DTX, NACK/DTX "PUCCH, 1 0,1
NACK/DTX, NACK/DTX, ACK, ACK 〃PUCCH,3 0,1NACK/DTX, NACK/DTX, ACK, ACK 〃PUCCH, 3 0,1
NACK/DTX, NACK/DTX, ACK, NACK/DTX 1) 0,0NACK/DTX, NACK/DTX, ACK, NACK/DTX 1 ) 0,0
NACK/DTX, NACK/DTX, NACK/DTX, ACK 〃PUCCH,3 0,0 NACK/DTX, NACK/DTX, NACK/DTX, ACK 〃PUCCH, 3 0,0
DTX, DTX, DTX, DTX 不发送 表 6 PUCCH format lb联合信道选择时 M=4的另一映射表 DTX, DTX, DTX, DTX are not sent. Table 6 PUCCH format lb Joint channel selection Another mapping table of M=4
HARQ-ACK(O), HARQ-ACK(l), ^PUCCH b(0)b(l) HARQ-ACK(2), HARQ-ACK(3) HARQ-ACK(O), HARQ-ACK(l), ^PUCCH b(0)b(l) HARQ-ACK(2), HARQ-ACK(3)
ACK, ACK, ACK, ACK WpUCCH,l 1,1 ACK, ACK, ACK, ACK WpUCCH, l 1,1
ACK, ACK, ACK, NACK/DTX „(i) ACK, ACK, ACK, NACK/DTX „(i)
WPUCCH,2 1,1 W PUCCH, 2 1,1
ACK, ACK, NACK/DTX, ACK „(i) ACK, ACK, NACK/DTX, ACK „(i)
wPUCCH,0 1,0 wPUCCH, 0 1,0
ACK, ACK, NACK/DTX, NACK/DTX „(i) ACK, ACK, NACK/DTX, NACK/DTX „(i)
w PUCCH, i 1,0 ACK, NACK/DTX, ACK, ACK „(i) w PUCCH, i 1,0 ACK, NACK/DTX, ACK, ACK „(i)
WPUCCH,3 1, 1 W PUCCH, 3 1, 1
ACK, NACK/DTX, ACK, NACK/DTX „(i)  ACK, NACK/DTX, ACK, NACK/DTX „(i)
WPUCCH,2 1, 0 W PUCCH, 2 1, 0
ACK, NACK/DTX, NACK/DTX, ACK „(i)  ACK, NACK/DTX, NACK/DTX, ACK „(i)
wPUCCH,0 ο, ι  wPUCCH, 0 ο, ι
ACK, NACK/DTX, NACK/DTX, NACK/DTX „(i)  ACK, NACK/DTX, NACK/DTX, NACK/DTX „(i)
wPUCCH,0 1, 1  wPUCCH, 0 1, 1
NACK/DTX, ACK, ACK, ACK „(i)  NACK/DTX, ACK, ACK, ACK „(i)
w PUCCH, i 0, 0  w PUCCH, i 0, 0
NACK/DTX, ACK, ACK, NACK/DTX „(i)  NACK/DTX, ACK, ACK, NACK/DTX „(i)
WPUCCH,2 ο, ι W PUCCH, 2 ο, ι
NACK/DTX, ACK, NACK/DTX, ACK „(i)  NACK/DTX, ACK, NACK/DTX, ACK „(i)
WPUCCH,3 1, 0 W PUCCH, 3 1, 0
NACK/DTX, ACK, NACK/DTX, NACK/DTX „(i)  NACK/DTX, ACK, NACK/DTX, NACK/DTX „(i)
w PUCCH, i ο, ι  w PUCCH, i ο, ι
NACK/DTX, NACK/DTX, ACK, ACK „(i)  NACK/DTX, NACK/DTX, ACK, ACK „(i)
WPUCCH,3 ο, ι W PUCCH, 3 ο, ι
NACK/DTX, NACK/DTX, ACK, NACK/DTX „(i)  NACK/DTX, NACK/DTX, ACK, NACK/DTX „(i)
WPUCCH,2 0, 0 W PUCCH, 2 0, 0
NACK/DTX, NACK/DTX, NACK/DTX, ACK „(i)  NACK/DTX, NACK/DTX, NACK/DTX, ACK „(i)
WPUCCH,3 0, 0 W PUCCH, 3 0, 0
NACK, NACK/DTX, NACK/DTX, „(i)  NACK, NACK/DTX, NACK/DTX, „(i)
wPUCCH,0 0, 0  wPUCCH, 0 0, 0
NACK/DTX  NACK/DTX
DTX, NACK/DTX, NACK/DTX, NACK/DTX 不发送  DTX, NACK/DTX, NACK/DTX, NACK/DTX are not sent
其中选择表 5所示的 M=4的映射表, 或选择表 6所示的 M=4的映射表, 取决于在 Rel-10 TDD系统下配置了一个服务小区时的 PUCCH格式 lb联合 信道选择时所使用映射表。  The mapping table of M=4 shown in Table 5 is selected, or the mapping table of M=4 shown in Table 6 is selected, depending on the PUCCH format lb joint channel selection when a serving cell is configured under the Rel-10 TDD system. The mapping table used.
Rel-10 TDD系统下配置了一个服务小区时的 PUCCH格式 lb联合信道选 择所使用的映射表是由高层信令配置的, 可配置为使用表 5所示的映射表, 或配置为表 6所示的映射表。  The mapping table used in the PUCCH format lb joint channel selection when a serving cell is configured in the Rel-10 TDD system is configured by higher layer signaling, and can be configured to use the mapping table shown in Table 5, or configured as Table 6. The mapping table shown.
应用示例 9 Application example 9
如图 11 所示, 基站给某终端配置了釆用 PUCCH format 3 来反馈 HARQ-ACK应答消息,且根据上下行子帧配置确定 M=3 ,主服务小区配置为 双码字流的传输模式。  As shown in Figure 11, the base station configures a terminal to use the PUCCH format 3 to feed back the HARQ-ACK response message, and determines M=3 according to the uplink and downlink subframe configuration, and configures the primary serving cell as the transmission mode of the dual codeword stream.
假定在某个绑定窗内,终端只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH对应的 PDSCH, 当终端釆用上述 方式 3-2来反馈 HARQ-ACK应答消息, 也就是釆用与 Rel-10 TDD系统下配 置了一个服务小区时的 PUCCH格式 lb联合信道选择相同的方式反馈相应的 HARQ-ACK消息时, 具体来说, 包括: Assume that within a certain binding window, the terminal only receives one of the incoming autonomous serving cells without PDCCH. The PDSCH and the PDSCH corresponding to the PDCCH with a DAI value equal to 1, when the terminal uses the above manner 3-2 to feed back the HARQ-ACK response message, that is, the PUCCH when a serving cell is configured with the Rel-10 TDD system. When the format lb joint channel selects the same manner to feed back the corresponding HARQ-ACK message, specifically, it includes:
终端将绑定窗内的每个子帧进行 spatial bundling, 得到 M个(在本应用 示例中 M=3 ) bundling后的 HARQ-ACK, {HARQ-ACK(O), HARQ-ACK(l), HARQ-ACK(2), HARQ-ACK(3)} , 然后选择表 7所示的 M=3的映射表, 或选 择表 8 所示的 M=3 的映射表, 根据 {HARQ-ACK(O), HARQ-ACK(l), HARQ-ACK(2) }的反馈状态, 确定(选择)一个信道《 ^和 b(0)b(l), 然后 在该选择的 CCH信道上将该选择的 b(0)b(l)发送出去。 The terminal performs spatial bundling for each subframe in the binding window to obtain M (M=3 in this application example) HARQ-ACK after bundling, {HARQ-ACK(O), HARQ-ACK(l), HARQ -ACK(2), HARQ-ACK(3)}, then select the mapping table of M=3 shown in Table 7, or select the mapping table of M=3 shown in Table 8, according to {HARQ-ACK(O) , HARQ-ACK(l), HARQ-ACK(2)} feedback state, determining (selecting) a channel "^ and b(0)b(l), and then selecting the selected b on the selected CCH channel (0)b(l) is sent out.
表 Ί PUCCH format lb联合信道选择时 M=3的映射表  Table Ί PUCCH format lb Joint channel selection M=3 mapping table
Figure imgf000024_0001
PUCCH format lb联合信道选择时 M=3的另一映射表
Figure imgf000024_0001
Another mapping table of M=3 when PUCCH format lb joint channel selection
Figure imgf000025_0001
在根据上下行子帧配置确定 M=2时,选择表 9或表 10所示的 M=2的映 射表, 来确定在相应的资源上反馈相应的应答消息, 具体流程同上, 在此不 再进行赘述。
Figure imgf000025_0001
When M=2 is determined according to the uplink and downlink subframe configuration, the mapping table of M=2 shown in Table 9 or Table 10 is selected to determine that the corresponding response message is fed back on the corresponding resource, and the specific process is the same as above. Repeat them.
表 9 PUCCH format lb联合信道选择时 M=2的映射表  Table 9 Mapping table of PUCCH format lb joint channel selection M=2
Figure imgf000025_0002
NACK, DTX 〃PUCCH,0 1, 0
Figure imgf000025_0002
NACK, DTX 〃PUCCH, 0 1, 0
DTX, DTX 不发送 DTX, DTX does not send
PUCCH format lb联合信道选择时 M=2的另一映射表 Another mapping table of M=2 when PUCCH format lb joint channel selection
Figure imgf000026_0001
Figure imgf000026_0001
本领域普通技术人员可以理解上述方法中的全部或部分步骤可通过程序 来指令相关硬件完成, 所述程序可以存储于计算机可读存储介质中, 如只读 存储器、 磁盘或光盘等。 可选地, 上述实施例的全部或部分步骤也可以使用 一个或多个集成电路来实现。 相应地, 上述实施例中的各模块 /单元可以釆用 硬件的形式实现, 也可以釆用软件功能模块的形式实现。 本发明不限制于任 何特定形式的硬件和软件的结合。 One of ordinary skill in the art will appreciate that all or a portion of the above steps may be accomplished by a program instructing the associated hardware, such as a read-only memory, a magnetic disk, or an optical disk. Alternatively, all or part of the steps of the above embodiments may also be implemented using one or more integrated circuits. Correspondingly, each module/unit in the above embodiment may be implemented in the form of hardware or in the form of a software function module. The invention is not limited to any specific form of combination of hardware and software.
以上所述仅为本发明的优选实施例而已, 并非用于限定本发明的保护范 围。 根据本发明的发明内容, 还可有其他多种实施例, 在不背离本发明精神 改变和变形, 凡在本发明的精神和原则之内, 所作的任何修改、 等同替换、 改进等, 均应包含在本发明的保护范围之内。  The above description is only a preferred embodiment of the present invention and is not intended to limit the scope of protection of the present invention. In view of the present invention, various other modifications, equivalents, improvements, etc., should be made without departing from the spirit and scope of the invention. It is included in the scope of protection of the present invention.
工业实用性 Industrial applicability
釆用上述技术方案后,为在只接收到来自主服务小区的一个没有 PDCCH 的 PDSCH和一个 DAI值等于 1的 PDCCH时的终端提供了反馈 HARQ-ACK 应答消息的解决方案, 实现简单, 适用性强, 并且不会对现有协议造成影响。 因此本发明具有很强的工业实用性。 After using the above technical solution, there is no PDCCH for receiving only one incoming autonomous serving cell. The terminal of the PDSCH and a PDCCH with a DAI value equal to 1 provides a solution for feeding back the HARQ-ACK response message, which is simple to implement, highly applicable, and does not affect the existing protocol. Therefore, the present invention has strong industrial applicability.

Claims

权 利 要 求 书 Claim
1、 一种时分双工系统中应答消息的发送方法, 适用于被配置为釆用物理 上行控制信道 (PUCCH ) 格式 3 来反馈混合自动重传请求应答消息 A method for transmitting a response message in a time division duplex system, adapted to be configured to use a physical uplink control channel (PUCCH) format 3 to feed back a hybrid automatic repeat request response message.
( HARQ-ACK ) 的终端中, 该发送方法包括: In the terminal of ( HARQ-ACK ), the sending method includes:
在绑定窗内接收来自服务小区的物理下行共享信道(PDSCH ) ; 当在所述绑定窗内仅接收到主服务小区中的一个没有 PDCCH的 PDSCH 和一个下行分配索引 ( DAI )值等于 1的 PDCCH所对应的 PDSCH时, 按照 以下方式之一反馈相应的 HARQ-ACK: Receiving a physical downlink shared channel (PDSCH) from the serving cell in the binding window; receiving only one PDSCH without the PDCCH and one downlink allocation index ( DAI ) value equal to 1 in the primary serving cell in the binding window When the PDSCH corresponding to the PDCCH is received, the corresponding HARQ-ACK is fed back in one of the following ways:
釆用 PUCCH格式 3来反馈相应的 HARQ-ACK;  PUUsing PUCCH format 3 to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb来反馈相应的 HARQ-ACK;  PUUsing the PUCCH format lb to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb联合信道选择的方式来反馈相应的 HARQ-ACK。 PU The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK.
2、 如权利要求 1所述的发送方法, 其中: 釆用 PUCCH格式 3来反馈相 应的 HARQ-ACK的步骤包括: 2. The transmitting method according to claim 1, wherein: the step of using PUCCH format 3 to feed back the corresponding HARQ-ACK comprises:
将接收到的 DAI值等于 1的 PDCCH对应的传输功率控制 (TPC )重用 为 ACK/NACK资源指示符( ARI ) , 并结合高层配置的 PUCCH格式 3资源 来确定相应的 PUCCH格式 3资源,然后在所确定的 PUCCH格式 3资源上反 馈相应的 HARQ-ACK。  Reusing the received PDCCH/transmission power control (TPC) corresponding to the PDCCH with the DAI value equal to 1 as the ACK/NACK resource indicator (ARI), and determining the corresponding PUCCH format 3 resource in combination with the PUCCH format 3 resource configured in the upper layer, and then The corresponding HARQ-ACK is fed back on the determined PUCCH format 3 resource.
3、 如权利要求 1所述的发送方法, 其中: 釆用 PUCCH格式 3来反馈相 应的 HARQ-ACK的步骤包括:  3. The transmitting method according to claim 1, wherein: the step of using PUCCH format 3 to feed back the corresponding HARQ-ACK comprises:
根据预设的 ARI值以及高层配置的 PUCCH格式 3 资源确定相应的 Determine the corresponding ARI value according to the preset ARI value and the PUCCH format 3 resource of the high-level configuration.
PUCCH格式 3 资源, 然后在所确定的 PUCCH格式 3 资源上反馈相应的 HARQ-ACK消息。 The PUCCH format 3 resource then feeds back the corresponding HARQ-ACK message on the determined PUCCH format 3 resource.
4、 如权利要求 3所述的发送方法, 该发送方法还包括:  4. The transmitting method according to claim 3, the transmitting method further comprising:
当在所述绑定窗内接收到一个没有 PDCCH的 PDSCH时,终端根据预设 的 ARI值以及高层配置的 PUCCH格式 3资源选择相应的 PUCCH格式 3资 源, 然后在所述相应的 PUCCH格式 3资源上反馈相应的 HARQ-ACK消息。  When receiving a PDSCH without a PDCCH in the binding window, the terminal selects a corresponding PUCCH format 3 resource according to a preset ARI value and a high-level configured PUCCH format 3 resource, and then the corresponding PUCCH format 3 resource. The corresponding HARQ-ACK message is fed back.
5、 如权利要求 1所述的发送方法, 其中: 釆用 PUCCH格式 lb来反馈 相应的 HARQ-ACK的步骤包括: 5. The transmitting method according to claim 1, wherein: PUusing PUCCH format lb for feedback The corresponding HARQ-ACK steps include:
对没有 PDCCH的 PDSCH的 HARQ-ACK和 DAI值等于 1的 PDCCH所 对应的 PDSCH 的 HARQ-ACK 进行空间绑定操作后得到 2 比特的 先约定好的 PUCCH资源上发送。  The HARQ-ACK of the PDSCH without the PDCCH and the HARQ-ACK of the PDSCH corresponding to the PDCCH with the DAI value of 1 are spatially bound, and then the 2-bit pre-committed PUCCH resource is transmitted.
6、 如权利要求 5所述的发送方法, 其中:  6. The transmitting method according to claim 5, wherein:
所述预先约定好的 PUCCH资源是与所述 DAI值等于 1的 PDCCH对应 的 PUCCH资源。  The pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
7、 如权利要求 1所述的发送方法, 其中: 釆用 PUCCH格式 lb联合信 道选择的方式反馈所述相应的 HARQ-ACK的步骤包括:  7. The transmitting method according to claim 1, wherein: the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner comprises:
釆用与 Rel-10 频分双工 (FDD ) 系统下的 PUCCH格式 lb联合信道选 择相同的方式反馈相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
8、 如权利要求 1所述的发送方法, 其中: 釆用 PUCCH格式 lb联合信 道选择的方式反馈所述相应的 HARQ-ACK的步骤包括:  8. The transmitting method according to claim 1, wherein: the step of feeding back the corresponding HARQ-ACK in a PUCCH format lb joint channel selection manner comprises:
釆用与 Rel-10 时分双工 ( TDD ) 系统配置为 1个服务小区时的 PUCCH 格式 lb联合信道选择相同方式反馈相应的 HARQ-ACK消息。  The PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell selects the corresponding HARQ-ACK message in the same manner.
9、 一种时分双工系统中应答消息的发送系统, 适用于被配置为釆用物理 上行控制信道 (PUCCH ) 格式 3 来发送混合自动重传请求应答消息 9. A transmitting system for answering messages in a time division duplex system, adapted to be configured to use a physical uplink control channel (PUCCH) format 3 to send a hybrid automatic repeat request response message
( HARQ-ACK ) 的终端中, 该发送系统包括第一装置和第二装置, 其中: 所述第一装置设置成: 在绑定窗内接收来自服务小区的物理下行共享信 道( PDSCH ) ; In the ( HARQ-ACK ) terminal, the transmitting system includes a first device and a second device, where: the first device is configured to: receive a physical downlink shared channel ( PDSCH ) from the serving cell in a binding window;
所述第二装置设置成: 当所述第一装置在所述绑定窗内仅接收到主服务 小区中的一个没有 PDCCH的 PDSCH和一个下行分配索引 ( DAI )值等于 1 的 PDCCH所对应的 PDSCH时, 按照以下方式之一反馈相应的 HARQ-ACK 消息:  The second device is configured to: when the first device receives, in the binding window, only one PDSCH without a PDCCH in the primary serving cell and a PDCCH corresponding to a downlink allocation index (DAI) value equal to 1 In the PDSCH, the corresponding HARQ-ACK message is fed back in one of the following ways:
釆用 PUCCH格式 3来反馈相应的 HARQ-ACK;  PUUsing PUCCH format 3 to feed back the corresponding HARQ-ACK;
釆用 PUCCH格式 lb来反馈相应的 HARQ-ACK; 釆用 PUCCH格式 lb联合信道选择的方式来反馈相应的 HARQ-ACK。PUUsing the PUCCH format lb to feed back the corresponding HARQ-ACK; The PUCCH format lb joint channel selection is used to feed back the corresponding HARQ-ACK.
10、 如权利要求 9所述的发送系统, 其中: 所述第二装置设置成按照以 将接收到的 DAI值等于 1的 PDCCH对应的传输功率控制 (TPC )重用 为 ACK/NACK资源指示符( ARI ) , 并结合高层配置的 PUCCH格式 3资源 来确定相应的 PUCCH格式 3资源,然后在所确定的 PUCCH格式 3资源上反 馈相应的 HARQ-ACK消息。 10. The transmitting system according to claim 9, wherein: the second device is configured to reuse a transmission power control (TPC) corresponding to a PDCCH having a received DAI value equal to 1 as an ACK/NACK resource indicator ( ARI), and combining the PUCCH format 3 resources of the high layer configuration to determine the corresponding PUCCH format 3 resources, and then feeding back the corresponding HARQ-ACK message on the determined PUCCH format 3 resources.
11、 如权利要求 9所述的发送系统, 其中: 所述第二装置设置成按照以 根据预设的 ARI值以及高层配置的 PUCCH格式 3 资源确定相应的 11. The transmitting system according to claim 9, wherein: the second device is configured to determine a corresponding one according to a PUCCH format 3 resource according to a preset ARI value and a high layer configuration.
PUCCH格式 3 资源, 然后在所确定的 PUCCH格式 3 资源上反馈相应的 HARQ-ACK消息。 The PUCCH format 3 resource then feeds back the corresponding HARQ-ACK message on the determined PUCCH format 3 resource.
12、 如权利要求 11所述的发送系统, 其中:  12. The transmitting system according to claim 11, wherein:
所述第二装置还设置成: 当所述终端配置为釆用 PUCCH格式 3来反馈 相应的 HARQ-ACK , 且所述第一装置在所述绑定窗内接收到一个没有 PDCCH的 PDSCH时, 根据预设的 ARI值以及高层配置的 PUCCH格式 3资 源选择相应的 PUCCH格式 3资源,然后在所述相应的 PUCCH格式 3资源上 反馈相应的 HARQ-ACK消息。  The second device is further configured to: when the terminal is configured to use the PUCCH format 3 to feed back a corresponding HARQ-ACK, and the first device receives a PDSCH without a PDCCH in the binding window, Selecting a corresponding PUCCH format 3 resource according to the preset ARI value and the high-level configured PUCCH format 3 resource, and then feeding back a corresponding HARQ-ACK message on the corresponding PUCCH format 3 resource.
13、 如权利要求 9所述的发送系统, 其中: 所述第二装置设置成按照以 对没有 PDCCH的 PDSCH的 HARQ-ACK和 DAI值等于 1的 PDCCH所 对应的 PDSCH 的 HARQ-ACK 进行空间绑定操作后得到 2 比特的 预先约定好的 PUCCH资源上发送。  13. The transmitting system according to claim 9, wherein: the second device is configured to perform space binding according to a HARQ-ACK of a PDSCH corresponding to a PDCCH without a PDCCH and a HARQ-ACK corresponding to a PDCCH having a DAI value of 1. After the operation, a 2-bit pre-agreed PUCCH resource is sent.
14、 如权利要求 13所述的发送系统, 其中: 所述预先约定好的 PUCCH 资源是与所述 DAI值等于 1的 PDCCH对应的 PUCCH资源。  The transmitting system according to claim 13, wherein: the pre-agreed PUCCH resource is a PUCCH resource corresponding to the PDCCH with the DAI value equal to 1.
15、 如权利要求 9所述的发送系统, 其中: 所述第二装置设置成按照以 下方式釆用 PUCCH 格式 lb 联合信道选择的方式反馈所述相应的 HARQ-ACK: 15. The transmitting system according to claim 9, wherein: said second device is configured to feed back said corresponding one in a PUCCH format lb joint channel selection manner in the following manner HARQ-ACK:
釆用与 Rel-10 频分双工 (FDD ) 系统下的 PUCCH格式 lb联合信道选 择相同的方式反馈所述相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection in the Rel-10 Frequency Division Duplex (FDD) system.
16、 如权利要求 9所述的发送系统, 其中: 所述第二装置设置成按照以 下方式釆用 PUCCH 格式 lb 联合信道选择的方式反馈所述相应的 HARQ-ACK:  16. The transmitting system according to claim 9, wherein: said second device is configured to feed back said corresponding HARQ-ACK in a manner of PUCCH format lb joint channel selection in the following manner:
釆用与 Rel-10 时分双工 (TDD ) 系统配置为 1个服务小区时的 PUCCH 格式 lb联合信道选择相同方式反馈所述相应的 HARQ-ACK消息。  The corresponding HARQ-ACK message is fed back in the same manner as the PUCCH format lb joint channel selection when the Rel-10 Time Division Duplex (TDD) system is configured as one serving cell.
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