WO2012055259A1 - Method for transmission of uplink channel, base station and user equipment - Google Patents
Method for transmission of uplink channel, base station and user equipment Download PDFInfo
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- WO2012055259A1 WO2012055259A1 PCT/CN2011/076473 CN2011076473W WO2012055259A1 WO 2012055259 A1 WO2012055259 A1 WO 2012055259A1 CN 2011076473 W CN2011076473 W CN 2011076473W WO 2012055259 A1 WO2012055259 A1 WO 2012055259A1
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- srs
- pucch
- user equipment
- transmitted
- control information
- Prior art date
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/001—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT the frequencies being arranged in component carriers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
- H04L5/0055—Physical resource allocation for ACK/NACK
Definitions
- the present invention relates to the field of communications, and in particular, to a new method for transmitting a Sounding Reference Signal (SRS) and a PUCCH and PUSCH, a base station, and a user equipment in a system using a carrier aggregation technology.
- SRS Sounding Reference Signal
- the uplink physical channel of the Long Term Evolution (LTE) system includes a Physical Random Access Channel (PARCH), a Physical Uplink Shared Channel (PUSCH), and a physical uplink control. Channel (Physical Uplink Control Channel, abbreviated as PUCCH).
- PARCH Physical Random Access Channel
- PUSCH Physical Uplink Shared Channel
- PUCCH Physical Uplink Control Channel
- the uplink and downlink OFDM (Orthogonal Frequency Division Multiplexing) technology is used for multiplexing, and the reference signals and data are multiplexed by TDM (Time Division Multiplexing).
- the uplink reference signal is divided into a Demodulation Reference Signal (DMRS) and a Sounding Reference Signal (SRS), wherein the DMRS is divided into a PUCCH demodulation reference signal and a PUSCH demodulation reference signal. , used for different channel transmissions.
- DMRS Demodulation Reference Signal
- SRS Sounding Reference Signal
- the main role of the DMRS is for the estimation of the uplink channel and the coherent detection and demodulation of the base station (referred to as the eNB).
- the main function of the SRS is to measure the uplink channel, which is convenient for the eNB to perform frequency selective scheduling.
- user equipment UE, User Equipment
- SRS is a "wideband" reference signal.
- the eNB may schedule each UE to transmit SRS periodically or periodically. When transmitting periodically, the transmission period may be 2/5/10/20/40/80/160/320 milliseconds.
- the period of SRS transmission and the offset of the subframe within the period are determined by the signaling SRSConfigurationInfo of the UE-specific lOBit.
- the bandwidth used by the UE to transmit the SRS depends on the transmission power of the UE, the number of UEs transmitting SRS in the cell, and the like. A more accurate uplink channel quality measurement can be obtained by using a larger transmission bandwidth. However, in the case where the uplink path loss is large, the UE needs a larger transmission power to maintain the transmission power density of the SRS.
- For each system bandwidth eight different sets of SRS bandwidths are configured in LTE, within each set, Up to four different SRS bandwidths can be allocated to different UEs in LTE.
- LTE specifies that the SRS is transmitted on the last symbol in the subframe, and in order to avoid mutual interference between the SRS and PUSCH data between different users, LTE specifies that the last symbol of the corresponding subframe cannot be used by any UE to transmit PUSCH data. In general, such a rule guarantees that PUCCH and SRS do not conflict with each other. If there is an SRS and a PUCCH transmitted simultaneously, the SRS is dropped to maintain the single carrier characteristic of the uplink.
- the format of the PUCCH is PUCCH Formatl/la/lb (the time domain structure is as shown in FIG. 1)
- the truncated PUCCH format is specified, as shown in FIG. 2, at this time, the last symbol of the subframe is Used to send SRS.
- the SRS collides with the PUCCH Format 2/2a/2b or the SR (Scheduling Request), the SRS is often lost.
- the ACK/NACK is transmitted simultaneously, the truncated PUCCH and SRS can be selected for simultaneous transmission.
- the LTE-A (LTE Advanced, LTE-A for short) system is a next-generation evolution system of the LTE system, which introduces the concept of Carrier Aggregation.
- the carrier aggregation LTE system bandwidth can be regarded as a component carrier, and each component carrier can also be referred to as a serving cell, that is, one spectrum can be aggregated by n component carrier frequencies (serving cells).
- serving cells serving cells
- the resources of a RIO UE User Equipment
- RIO UE User Equipment
- n serving cells component carriers
- Uplink supports SU-MIMO, and up to 4 antennas can be used as the transmit antenna, that is, the UE can simultaneously transmit SRS on multiple antennas at the same time, and the eNB needs to estimate each strip according to the SRS received on each antenna. Status information on the channel.
- the PUCCH is fixed on a certain uplink component carrier, which will increase the probability that the uplink control channel and the SRS are simultaneously transmitted. If the SRS method is still used, the uplink channel will be affected.
- LTE-A Measurement and estimation of downlink channel state
- LTE-A system supports simultaneous transmission of PUCCH and PUSCH, that is to say, in LTE-A, uplink single carrier is not the main consideration for uplink channel transmission design, therefore, LTE
- the transmission of various uplink channels in -A can be performed in a different manner than LTE. Therefore, it is necessary to rethink the transmission methods of various uplink channels in the carrier aggregation scenario. Summary of the invention
- An object of the present invention is to provide an uplink channel transmission method, a base station, and a user equipment.
- the present invention provides an uplink channel sending method, including: the base station sends high layer control information to the user equipment, and indicates, by using the high layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal. (SRS) Send at the same time.
- PUCCH physical uplink control channel
- SRS measurement reference signal
- the high-level control information is newly defined information; or, is, existing high-level control information.
- the existing high-layer control information is the information of the PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission).
- PUCCH-PUSCH-Simultaneous Transmission When the value of the PUCCH-PUSCH-Simultaneous Transmission is true, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS.
- the value of the PUCCH-PUSCH-SimultaneousTransmission is false, it indicates that the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
- the high layer control information is proprietary to the user equipment.
- the base station sends the high layer control information to the user equipment by using radio resource control signaling.
- the step of indicating, by the high-layer control information, whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted includes: the base station indicating, by using the same high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed simultaneously. Transmit, or, the base station respectively indicates, by the independent high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
- the method further includes: when the high-level control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the ACK/NACK and the SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) are true, the current subframe needs to simultaneously send the PUCCH format l/la/ In the case of lb/3 and SRS, the user equipment transmits PUCCH format l/la/lb/3 with a truncation structure while transmitting the SRS on the last symbol of the subframe.
- the method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the AckNackSRS-SimultaneousTransmission is H, the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user The device transmits the PUCCH format l/la/lb/3 using a conventional structure while transmitting the SRS on the last symbol of the subframe.
- the method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS, the user equipment sends the PUCCH format 2/2a/2b, while transmitting the SRS on the last symbol of the subframe.
- the method further includes: when the high layer control information indicates that the user equipment does not allow PUCCH and
- the user equipment When the SRS is simultaneously transmitted, if the AckNackSRS-SimultaneousTransmission is true, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment sends the PUCCH format l/la/lb with a truncated structure. /3, while transmitting the SRS on the last symbol of the subframe.
- the method further includes: when the high layer control information indicates that the user equipment does not allow PUCCH and
- the user equipment When the SRS is simultaneously transmitted, if the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment sends the PUCCH format l/la/lb/ using a conventional structure. 3, and the SRS is not sent on the subframe.
- the method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS that carry the ACK/NACK, the user equipment
- the PUCCH format 2/2a/2b is transmitted in a conventional configuration, and the SRS is not transmitted on the subframe.
- the method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, and when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, the user equipment sends the PUCCH according to the scenario that only the PUCCH and the PUSCH are transmitted. PUSCH, and the PUSCH is not transmitted on the last symbol of the subframe, and the SRS is transmitted.
- the SRS is a periodic SRS or an aperiodic SRS.
- the method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the aperiodic SRS that only carry the channel state information, where the user equipment is in the The aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
- the method further includes: when the high-level control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format that carries the channel state information.
- the user equipment sends the PUCCH format 2 carrying the channel state information on the subframe, and the periodic SRS is not sent on the subframe.
- the method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously send a scheduling request (SR) and an aperiodic SRS, where the user equipment is on the subframe The SR is sent, and the aperiodic SRS is not sent on the subframe.
- SR scheduling request
- aperiodic SRS aperiodic SRS
- the method is applied to a scenario in which the SRS and the PUCCH are sent on the same component carrier, or the method is applied to a scenario in which the SRS is transmitted on the same component carrier as the PUCCH and the PUSCH.
- the present invention further provides a base station, the base station is configured to: send high layer control information to the user equipment, and indicate, by using the high layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously sent. .
- PUCCH physical uplink control channel
- SRS measurement reference signal
- the high-level control information is newly defined information; or, is, existing high-level control information.
- the existing high-layer control information is the information of the PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission).
- PUCCH-PUSCH-Simultaneous Transmission When the value of the PUCCH-PUSCH-Simultaneous Transmission is true, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS.
- the value of the PUCCH-PUSCH-SimultaneousTransmission is false, it indicates that the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
- the high layer control information is proprietary to the user equipment.
- the base station sends the high layer control information to the user equipment by using radio resource control signaling.
- the base station is configured to indicate, by using the high layer control information, whether the user equipment allows PUCCH and SRS to be simultaneously transmitted according to the following manner: indicating, by using the same high layer control information, whether the user equipment allows PUCCH and periodic SRS to be simultaneously transmitted, and whether to allow PUCCH and aperiodic The SRSs are simultaneously transmitted; or the independent high-layer control information respectively indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
- the user equipment is further configured to: receive the high layer control information sent by the base station, and determine the uplink channel transmission according to the high layer control information; wherein the high layer control information indicates whether the user equipment allows physical uplink Control channel (PUCCH) and measurement reference letter The number (SRS) is sent at the same time.
- PUCCH physical uplink Control channel
- SRS measurement reference letter The number
- the user equipment is configured to determine transmission of an uplink channel by: when the high layer control information indicates that the user equipment allows PUCCH to be simultaneously transmitted with the SRS and the ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) is true, then the current When the subframe needs to transmit PUCCH format l/la/lb/3 and SRS simultaneously, the PUCCH format l/la/lb/3 is transmitted with the truncation structure, and the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be sent simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, the PUCCH format is required to be simultaneously transmitted in the current subframe.
- the PUCCH format l/la/lb/3 is transmitted using a conventional structure while the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS Transmitting the PUCCH format 2/2a/2b with a conventional structure while transmitting the SRS on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is true, the PUCCH format needs to be simultaneously sent in the current subframe.
- the PUCCH format l/la/lb/3 is transmitted with a truncation structure, and the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, the PUCCH format needs to be simultaneously sent in the current subframe.
- the PUCCH format l/la/lb/3 is transmitted by a conventional structure, and the SRS is not transmitted on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the PUCCH format 2 carrying the ACK/NACK needs to be simultaneously transmitted in the current subframe.
- the PUCCH format 2/2a/2b is transmitted using a conventional structure, and the SRS is not transmitted on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, according to only The PUCCH and PUSCH transmitted scenarios transmit PUCCH and PUSCH, and do not transmit PUSCH on the last symbol of the subframe, and transmit the SRS.
- the SRS is a periodic SRS or an aperiodic SRS.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that only carries the channel state information needs to be simultaneously transmitted in the current subframe. 2 and aperiodic SRS, the aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the PUCCH format 2 that needs to simultaneously transmit the channel state information in the current subframe is required. And the periodic SRS, the PUCCH format 2 carrying the channel state information is sent on the subframe, and the periodic SRS is not sent on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the scheduling request (SR) and the aperiod need to be simultaneously sent in the current subframe.
- the scheduling request SR
- the SR is sent on the subframe
- the aperiodic SRS is not sent on the subframe.
- the present invention provides a method for transmitting various uplink channels in a carrier aggregation scenario.
- the present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting high-level signaling enablement, and improves SRS transmission efficiency, so that the base station can obtain uplink and downlink channel information state information more accurately and timely, thereby performing more Good scheduling to improve overall system performance.
- BRIEF abstract BRIEF abstract
- FIG. 1 is a schematic diagram of a time-frequency position of a PUCCH format 1/la/lb in the prior art
- FIG. 2 is a diagram showing a truncated structure of PUCCH format 1/la/lb when SRS is transmitted in the prior art. Frequency position diagram
- FIG. 3 is a schematic diagram of a time-frequency position of simultaneous transmission of PUCCH format 1/la/lb and SRS in the present invention
- FIG. 4 is a schematic diagram showing the time-frequency positions of PUCCH format 1/la/lb and SRS and PUSCH simultaneously transmitted in the present invention
- FIG. 5 is a schematic diagram of a time-frequency position of a PUCCH format 2/2a/2b/3 in the prior art
- FIG. 6 is a schematic diagram showing a time-frequency position of a truncated structure of PUCCH format 3 when SRS is transmitted in the prior art
- FIG. 7 is a schematic diagram showing the time-frequency position of simultaneous transmission of PUCCH format 2/2a/2b/3 and SRS in the present invention.
- Figure 8 is a diagram showing the time-frequency positions of PUCCH format 2/2a/2b/3 and SRS and PUSCH simultaneously transmitted in the present invention.
- the core idea of the present invention is: The base station configures the user equipment whether to allow the PUCCH to transmit the high layer control information simultaneously with the SRS, and the user equipment determines the uplink channel transmission according to the high layer control information.
- the present invention provides an uplink channel sending method, including: the base station sends high layer control information to the user equipment, and the high layer control information indicates whether the user equipment allows the PUCCH to be simultaneously transmitted with the SRS.
- the high layer control information is UE specific (user equipment specific), and the user equipment is notified by RRC (Radio Resource Control) signaling.
- RRC Radio Resource Control
- the high-level control information may be configured independently or in the same configuration for the periodic and aperiodic SRS. That is, the base station indicates, by using the same high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted and whether the PUCCH and the PUCCH are allowed.
- the aperiodic SRS is simultaneously transmitted; or the base station separately indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted through independent high-layer control information, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
- the UE When the high layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, if the high layer information ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) is TRUE (true), the current subframe needs to be the same When transmitting PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the truncation structure to transmit PUCCH format l/la/lb/3, while the last symbol in the subframe Sending SRS on top; If the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) simultaneously, the UE will use the conventional structure. Send PUCCH format l/la/lb/3, and send SRS on the last symbol of the subframe;
- the UE When the high-layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS (including the periodic SRS and the aperiodic SRS), the UE adopts the conventional structure. Transmitting PUCCH format 2/2a/2b while transmitting SRS on the last symbol of the subframe;
- the high-level control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS
- the high-level information AckNackSRS-SimultaneousTransmission is TRUE
- the current subframe needs to simultaneously transmit the PUCCH format l/la/lb/3 and the SRS (including the period and In the case of aperiodic SRS, the UE will transmit the PUCCH format l/la/lb/3 with the truncation structure, and send the SRS on the last symbol of the subframe;
- the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS
- the high-level information AckNackSRS-SimultaneousTransmission is FALSE
- the current subframe needs to simultaneously transmit the PUCCH format l/la/lb/3 and the SRS (including the period and the non- In the case of the periodic SRS)
- the UE will transmit the PUCCH format l/la/lb/3 using the conventional structure, and the UE will not transmit the SRS
- the high-layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS
- the current sub- When a frame needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic and aperiodic SRS) carrying ACK/NACK, the UE will transmit PUCCH format 2/2a/2b using the conventional structure, and the UE will not transmit SRS.
- the high-layer control information indicates that the user equipment does not allow the PUCCH to
- the UE When the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the aperiodic SRS carrying the CSI (Channel state information), the UE will send the aperiodic The SRS, at the same time, the UE will not transmit the PUCCH format 2 carrying the CSI; when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the periodic SRS carrying the channel state information, Transmitting, by the user equipment, the bearer letter on the subframe The PUCCH format 2 of the channel status information, and the period SRS is not transmitted on the subframe.
- the high-layer control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS
- the current subframe needs to simultaneously send the SR and the aperiodic SRS
- the user equipment sends the SR on the subframe, and the child
- the aperiodic SRS is not transmitted on the frame.
- the high-level control information is newly defined information; or, is, existing high-level control information.
- the high-level control information may be that the base station implicitly indicates whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted according to the existing high-level configuration information.
- the existing high-level configuration information may be PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission) information; when PUCCH-PUSCH-SimultaneousTransmission is TRUE, the user equipment allows PUCCH and SRS to be simultaneously transmitted, when PUCCH-PUSCH-SimultaneousTransmission When FALSE, the user equipment does not allow PUCCH and SRS to be sent simultaneously.
- PUCCH-PUSCH-Simultaneous Transmission PUCCH-PUSCH-Simultaneous Transmission
- the PUCCH and the PUSCH are transmitted according to only the PUCCH and the PUSCH.
- the scenario is sent, where the PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent.
- the method is applied to a scenario in which the SRS and the PUCCH are sent on the same component carrier, or the method is applied to a scenario in which the SRS is transmitted on the same component carrier as the PUCCH and the PUSCH.
- PUCCH-SRS-SimultaneousTransmission when the PUCCH-SRS-SimultaneousTransmission is TRUE, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS, and when the PUCCH-SRS-SimultaneousTransmission is the FLASE, the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS;
- the base station implicitly indicates whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted according to the existing high-level configuration information.
- the existing high-level configuration information may be
- PUCCH-PUSCH-SimultaneousTransmission When PUCCH-PUSCH-SimultaneousTransmission is TRUE, the user equipment is allowed to simultaneously transmit PUCCH and SRS. When PUCCH-PUSCH-SimultaneousTransmission is FALSE, the user equipment is not allowed to send PUCCH and SRS at the same time.
- the UE When the PUCCH-SRS-SimultaneousTransmission is TRUE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use Truncating the structure to send PUCCH format l/la/lb/3, and sending SRS on the last symbol of the subframe, as shown in Figure 2 and Figure 6; if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to be simultaneously When PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) are transmitted, the UE will transmit PUCCH format l/la/lb/3 using the conventional structure and send on the last symbol of the subframe. SRS, as shown in Figures 3 and 7;
- PUCCH-SRS-SimultaneousTransmission when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic SRS and aperiodic SRS), the UE will transmit PUCCH format 2/2a/2b using the conventional structure. And send the SRS on the last symbol of the subframe, as shown in Figure 7;
- the PUCCH-SRS-SimultaneousTransmission is FLASE
- the high-level information AckNackSRS-SimultaneousTransmission is TRUE
- the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS)
- the UE will ⁇ Transmitting PUCCH format l/la/lb/3 with a truncated structure, and transmitting SRS on the last symbol of the subframe, as shown in FIG. 2 and FIG. 6;
- the UE When the PUCCH-PUSCH-SimultaneousTransmission is TRUE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the UE.
- the frequency domain locations of the PUSCH and the SRS may be the same or different.
- PUCCH-PUSCH-SimultaneousTransmission when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic SRS and aperiodic SRS), the UE will transmit PUCCH format 2/2a/2b using the conventional structure. And transmitting the SRS on the last symbol of the subframe, as shown in FIG. 8, where the frequency domain positions of the PUSCH and the SRS may be the same or different;
- the UE When the PUCCH-PUSCH-SimultaneousTransmission is FLASE, if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the UE.
- the conventional structure sends PUCCH format l/la/lb/3, and the UE will not send SRS, as shown in FIG. 1 and FIG. 5;
- the PUCCH and the PUSCH are transmitted according to the scenario in which only the PUCCH and the PUSCH are transmitted, where The PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent;
- the UCI Uplink Control Information
- the PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent; where the UCI includes the ACK/ One or more of NACK, CSI, SR (Scheduling Request).
- the high-level control information indicates that the user equipment does not allow the PUCCH and the SRS to transmit simultaneously: the scenario that only PUCCH and SRS are simultaneously transmitted;
- the UE When the current subframe needs to transmit ACK/NACK and SRS (periodic and aperiodic) simultaneously, the UE will transmit ACK/NACK on the subframe and not transmit the SRS;
- the UE When the current subframe needs to transmit both the SR (Scheduling Request) and the SRS (periodic and aperiodic), the UE will transmit the SR on the subframe and not transmit the aperiodic SRS; the current subframe needs to transmit the CSI at the same time. And the periodic SRS, the UE will transmit CSI on the subframe, and does not transmit the periodic SRS;
- the UE When the current subframe needs to transmit CSI and aperiodic SRS simultaneously, the UE will transmit the non-periodic SRS on the subframe and not transmit the CSI;
- the UCI is carried on the PUSCH, where the PUSCH is not transmitted on the last symbol, and the SRS is transmitted; the UCI includes one or more of ACK/NACK, CSI, and SR.
- the present invention further provides a base station, where the base station is configured to: send high layer control information to the user equipment, and the high layer control information indicates whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously transmitted.
- the high-level control information is newly defined information; or, is, existing high-level control information.
- the high-level control information is that the existing PUCCH and PUSCH are simultaneously transmitted.
- PUCCH-PUSCH-SimultaneousTransmission information
- the user equipment when the value of the PUCCH-PUSCH-SimultaneousTransmission is true, the user equipment is allowed to simultaneously send the PUCCH and the SRS, and when the value of the PUCCH-PUSCH-SimultaneousTransmission is false, the user equipment is not allowed to send at the same time.
- PUCCH and SRS when the value of the PUCCH-PUSCH-SimultaneousTransmission is true, the user equipment is allowed to simultaneously send the PUCCH and the SRS, and when the value of the PUCCH-PUSCH-SimultaneousTransmission is false, the user equipment is not allowed to send at the same time.
- the high layer control information is specific to the user equipment.
- the base station is configured to send the high layer control information to the user equipment by using radio resource control signaling.
- the base station indicates, by using the same high layer control information, whether the user equipment allows PUCCH. Simultaneously transmitting with the periodic SRS and allowing the PUCCH and the aperiodic SRS to be simultaneously transmitted; or the base station respectively indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted through independent high-layer control information, whether the PUCCH and the aperiodic are allowed. SRS is sent simultaneously.
- the user equipment is further configured to: receive the high layer control information sent by the base station, and determine the uplink channel transmission according to the high layer control information; wherein the high layer control information indicates whether the user equipment allows physical uplink The Control Channel (PUCCH) and the Measurement Reference Signal (SRS) are transmitted simultaneously.
- PUCCH Physical Uplink The Control Channel
- SRS Measurement Reference Signal
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS and the AckNackSRS-Simultaneous Transmission information is true, in the current subframe.
- PUCCH format l/la/lb/3 and SRS need to be transmitted simultaneously, PUCCH format l/la/lb/3 is transmitted with a truncation structure, and SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the uplink channel transmission by: when the high layer control information indicates that the user equipment allows the PUCCH to be sent simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, and the PUCCH format needs to be simultaneously sent in the current subframe.
- the PUCCH format l/la/lb/3 is transmitted using a conventional structure while the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, and the PUCCH format 2/2a/2b and the SRS need to be simultaneously transmitted in the current subframe.
- the PUCCH format 2/2a/2b is transmitted with a conventional structure while the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is true, and the PUCCH needs to be simultaneously sent in the current subframe.
- the PUCCH format l/la/lb/3 is transmitted with a truncation structure, and the SRS is transmitted on the last symbol of the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-level control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to be simultaneously sent.
- PUCCH format l/la/lb/3 and SRS the PUCCH format l/la/lb/3 is transmitted by a conventional structure, and the SRS is not transmitted on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that carries the ACK/NACK is required to be simultaneously transmitted in the current subframe.
- the PUCCH format 2/2a/2b is transmitted using a conventional structure, and the SRS is not transmitted on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, according to Only the PUCCH and PUSCH transmission scenarios transmit PUCCH and PUSCH, and the PUSCH is not transmitted on the last symbol, and the SRS is transmitted.
- the SRS is a periodic SRS or an aperiodic SRS.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH that only carries the channel state information needs to be simultaneously transmitted in the current subframe.
- the aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that needs to simultaneously transmit the bearer channel state information in the current subframe In the case of the SRS and the periodic SRS, the PUCCH format 2 carrying the channel state information is transmitted on the subframe, and the periodic SRS is not transmitted on the subframe.
- the user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, the scheduling request (SR) and the non-send need to be simultaneously sent in the current subframe.
- the SR is sent on the subframe, and the aperiodic SRS is not sent on the subframe.
- the method provided by the present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting corresponding signaling enablement, and improves SRS.
- the transmission efficiency enables the base station to obtain uplink and downlink channel state information more accurately and timely, thereby performing better scheduling and improving overall system performance.
- the present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting high-layer signaling enablement, improves SRS transmission efficiency, and enables the base station to acquire uplink and downlink channels more accurately and timely. Signal status information for better scheduling and overall system performance.
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Abstract
A method for transmission of uplink channel is provided in the present invention. The method includes: a base station transmits higher layer control information to a User Equipment (UE), and said higher layer control information indicates if the UE is permitted to transmit Physical Uplink Control Channel (PUCCH) and Sounding Reference Signal (SRS) simultaneously. A base station is also provided in the present invention, which is configured so that higher layer control information is transmitted to a UE, and said higher layer control information indicates if the UE is permitted to transmit Physical Uplink Control Channel (PUCCH) and Sounding Reference Signal (SRS) simultaneously. A UE is also provided in the present invention, which is configured to receive higher layer control information transmitted by a base station, and to determine transmission of uplink channel according to the higher layer control information.
Description
一种上行信道的发送方法、 基站和用户设备 Method for transmitting uplink channel, base station and user equipment
技术领域 Technical field
本发明涉及通信领域, 尤其涉及釆用了载波聚合技术的系统中一种新的 上行测量参考信号( Sounding Reference Signal,简称 SRS )与 PUCCH和 PUSCH 的发送方法、 基站和用户设备。 The present invention relates to the field of communications, and in particular, to a new method for transmitting a Sounding Reference Signal (SRS) and a PUCCH and PUSCH, a base station, and a user equipment in a system using a carrier aggregation technology.
背景技术 Background technique
长期演进( Long Term Evolution , 简称 LTE )系统的上行物理信道包括物 理随机接入信道( Physical Random Access Channel, 简称为 PARCH ) 、 物理 上行共享信道( Physical Uplink Shared Channel, 简称为 PUSCH ) 、 物理上行 控制信道(Physical Uplink Control Channel, 简称为 PUCCH ) 。 LTE的上行 釆用单载波 OFDM ( Orthogonal Frequency Division Multiplexing, 正交频分复 用)技术, 参考信号和数据是通过 TDM ( Time Division Multiplexing, 时分复 用) 的方式复用在一起的。 上行参考信号分为解调参考信号 (Demodulation Reference Signal,简称为 DMRS )和测量参考信号( Sounding Reference Signal, 简称为 SRS ) , 其中, DMRS分为 PUCCH解调用参考信号和 PUSCH解调用 参考信号, 分别用于不同的信道传输。 DMRS的主要作用是用于上行信道的 估计和基站(简称为 eNB )端的相干检测和解调, SRS的主要作用是用于上 行信道的测量,便于 eNB做频率选择性调度。为了支持这种频率选择性调度, 用户设备 (简称为 UE, User Equipment )需要对较大的带宽进行测量, 通常 都会超过数据传输的带宽, 因此 SRS是一种 "宽带的" 参考信号。 LTE中, eNB可以调度每个 UE—次性或周期性地发送 SRS, 周期性发送时, 其发送 周期可以为 2/5/10/20/40/80/160/320毫秒。 SRS发送的周期以及周期内子帧的 偏移量由 UE特定的 lOBit的信令 SRSConfigurationlndex决定。 UE发送 SRS 所使用的带宽取决于 UE的发送功率、 小区中发送 SRS的 UE数目等。 使用 较大的发送带宽可以获得更为精确的上行信道质量测量, 然而在上行路径损 耗较大的情况下, UE需要更大的发射功率来维持 SRS的发射功率密度。 对 于每一个系统带宽, LTE中配置了 8种不同的 SRS带宽集合,在每个集合内,
LTE中可以为不同的 UE分配多达 4种的不同 SRS带宽。 The uplink physical channel of the Long Term Evolution (LTE) system includes a Physical Random Access Channel (PARCH), a Physical Uplink Shared Channel (PUSCH), and a physical uplink control. Channel (Physical Uplink Control Channel, abbreviated as PUCCH). The uplink and downlink OFDM (Orthogonal Frequency Division Multiplexing) technology is used for multiplexing, and the reference signals and data are multiplexed by TDM (Time Division Multiplexing). The uplink reference signal is divided into a Demodulation Reference Signal (DMRS) and a Sounding Reference Signal (SRS), wherein the DMRS is divided into a PUCCH demodulation reference signal and a PUSCH demodulation reference signal. , used for different channel transmissions. The main role of the DMRS is for the estimation of the uplink channel and the coherent detection and demodulation of the base station (referred to as the eNB). The main function of the SRS is to measure the uplink channel, which is convenient for the eNB to perform frequency selective scheduling. In order to support such frequency selective scheduling, user equipment (UE, User Equipment) needs to measure a large bandwidth, which usually exceeds the bandwidth of data transmission, so SRS is a "wideband" reference signal. In LTE, the eNB may schedule each UE to transmit SRS periodically or periodically. When transmitting periodically, the transmission period may be 2/5/10/20/40/80/160/320 milliseconds. The period of SRS transmission and the offset of the subframe within the period are determined by the signaling SRSConfigurationInfo of the UE-specific lOBit. The bandwidth used by the UE to transmit the SRS depends on the transmission power of the UE, the number of UEs transmitting SRS in the cell, and the like. A more accurate uplink channel quality measurement can be obtained by using a larger transmission bandwidth. However, in the case where the uplink path loss is large, the UE needs a larger transmission power to maintain the transmission power density of the SRS. For each system bandwidth, eight different sets of SRS bandwidths are configured in LTE, within each set, Up to four different SRS bandwidths can be allocated to different UEs in LTE.
LTE规定 SRS在子帧内的最后一个符号上传输, 同时为了避免不同用户 之间的 SRS和 PUSCH数据之间相互干扰, LTE规定相应子帧的最后一个符 号不能被任何 UE用来发送 PUSCH数据。 一般情况下, 这样的规定保证了 PUCCH和 SRS不会互相冲突。如果有 SRS与 PUCCH同时发送,则丟掉 SRS, 以保持上行链路的单载波特性。 当 PUCCH的格式为 PUCCH Formatl/la/lb (时域结构如图 1所示) 的情况下, 规定了截短的 PUCCH格式, 如图 2所 示, 此时, 子帧的最后一个符号是可以用来发送 SRS的。 在 SRS与 PUCCH Format 2/2a/2b或 SR ( Scheduling Request ) 冲突时, 往往丟掉 SRS, 只在与 ACK/NACK同传时, 可以选择截短的 PUCCH和 SRS同时传输。 LTE specifies that the SRS is transmitted on the last symbol in the subframe, and in order to avoid mutual interference between the SRS and PUSCH data between different users, LTE specifies that the last symbol of the corresponding subframe cannot be used by any UE to transmit PUSCH data. In general, such a rule guarantees that PUCCH and SRS do not conflict with each other. If there is an SRS and a PUCCH transmitted simultaneously, the SRS is dropped to maintain the single carrier characteristic of the uplink. When the format of the PUCCH is PUCCH Formatl/la/lb (the time domain structure is as shown in FIG. 1), the truncated PUCCH format is specified, as shown in FIG. 2, at this time, the last symbol of the subframe is Used to send SRS. When the SRS collides with the PUCCH Format 2/2a/2b or the SR (Scheduling Request), the SRS is often lost. When the ACK/NACK is transmitted simultaneously, the truncated PUCCH and SRS can be selected for simultaneous transmission.
LTE-A ( LTE Advanced , 简称为 LTE-A ) 系统是 LTE系统的下一代演进 系统, 它引入了载波聚合 ( Carrier Aggregation )的概念。 所述载波聚合的 LTE 系统带宽可以看作分量载波(Component Carrier ) , 每个分量载波也可以称为 一个服务小区 (serving Cell ) , 也就是一个频谱可以由 η个分量载频(服务 小区)聚合而成。 对于一个 RIO UE ( User Equipment ) 的资源是由频域的 n 个服务小区 (分量载波)构成, 其中, 一个小区称为主小区 (Primary cell ) , 其余小区称为辅小区( Secondary cell )。 上行支持 SU-MIMO, 并且可以最多 使用 4根天线作为发射天线, 也就是说 UE在同一时刻可以在多根天线上同 时发送 SRS,而 eNB需要根据每根天线上接收到的 SRS来估计每条信道上的 状态信息。在载波聚合的场景下, PUCCH是固定在某一个上行分量载波上发 送的, 这将导致上行控制信道与 SRS同时发送的概率变大, 如果仍然釆用打 掉 SRS的方法,将影响上行信道的测量和下行信道状态的估计,而且, LTE-A 系统中支持 PUCCH和 PUSCH同时发送, 也就是说在 LTE-A里, 上行的单 载波性并不是上行信道发送设计的主要考虑因素, 因此, LTE-A里各种上行 信道的发送可以釆用与 LTE不同的方式来进行。 因此, 就需要重新考虑载波 聚合场景下各种上行信道的发送方法。 发明内容 The LTE-A (LTE Advanced, LTE-A for short) system is a next-generation evolution system of the LTE system, which introduces the concept of Carrier Aggregation. The carrier aggregation LTE system bandwidth can be regarded as a component carrier, and each component carrier can also be referred to as a serving cell, that is, one spectrum can be aggregated by n component carrier frequencies (serving cells). Made. The resources of a RIO UE (User Equipment) are composed of n serving cells (component carriers) in the frequency domain, where one cell is called a primary cell and the other cells are called secondary cells. Uplink supports SU-MIMO, and up to 4 antennas can be used as the transmit antenna, that is, the UE can simultaneously transmit SRS on multiple antennas at the same time, and the eNB needs to estimate each strip according to the SRS received on each antenna. Status information on the channel. In the scenario of carrier aggregation, the PUCCH is fixed on a certain uplink component carrier, which will increase the probability that the uplink control channel and the SRS are simultaneously transmitted. If the SRS method is still used, the uplink channel will be affected. Measurement and estimation of downlink channel state, and LTE-A system supports simultaneous transmission of PUCCH and PUSCH, that is to say, in LTE-A, uplink single carrier is not the main consideration for uplink channel transmission design, therefore, LTE The transmission of various uplink channels in -A can be performed in a different manner than LTE. Therefore, it is necessary to rethink the transmission methods of various uplink channels in the carrier aggregation scenario. Summary of the invention
本发明的目的是提供一种上行信道发送方法、 基站和用户设备。
为了解决上述问题, 本发明提供了一种上行信道发送方法, 包括: 基站发送高层控制信息给用户设备, 并通过所述高层控制信息指示用户 设备是否允许物理上行控制信道(PUCCH )和测量参考信号 (SRS ) 同时发 送。 An object of the present invention is to provide an uplink channel transmission method, a base station, and a user equipment. In order to solve the above problem, the present invention provides an uplink channel sending method, including: the base station sends high layer control information to the user equipment, and indicates, by using the high layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal. (SRS) Send at the same time.
所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 The high-level control information is newly defined information; or, is, existing high-level control information.
所述已有高层控制信息为已有的 PUCCH 和 PUSCH 同时传输 ( PUCCH-PUSCH-SimultaneousTransmission ) 的 信 息 , 当 所 述 PUCCH-PUSCH-SimultaneousTransmission取值为真时, 指示允许用户设备同 时发送 PUCCH与 SRS, 当 PUCCH-PUSCH-SimultaneousTransmission取值为 假时, 指示不允许用户设备同时发送 PUCCH与 SRS。 The existing high-layer control information is the information of the PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission). When the value of the PUCCH-PUSCH-Simultaneous Transmission is true, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS. When the value of the PUCCH-PUSCH-SimultaneousTransmission is false, it indicates that the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
所述高层控制信息为用户设备专有的。 The high layer control information is proprietary to the user equipment.
所述基站是通过无线资源控制信令发送所述高层控制信息至所述用户设 备。 The base station sends the high layer control information to the user equipment by using radio resource control signaling.
通过所述高层控制信息指示用户设备是否允许 PUCCH和 SRS同时发送 的步骤包括:所述基站通过同一高层控制信息指示用户设备是否允许 PUCCH 和周期性 SRS同时发送和是否允许 PUCCH和非周期性 SRS同时发送,或者, 所述基站通过独立的高层控制信息分别指示用户设备是否允许 PUCCH和周 期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The step of indicating, by the high-layer control information, whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted, includes: the base station indicating, by using the same high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed simultaneously. Transmit, or, the base station respectively indicates, by the independent high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
上述方法还包括:当所述高层控制信息指示用户设备允许 PUCCH与 SRS 同 时 发 送 时 , 如 果 ACK/NACK 和 SRS 同 时 传 输 ( AckNackSRS-SimultaneousTransmission ) 为真, 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 所述用户设备釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送 SRS。 The method further includes: when the high-level control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the ACK/NACK and the SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) are true, the current subframe needs to simultaneously send the PUCCH format l/la/ In the case of lb/3 and SRS, the user equipment transmits PUCCH format l/la/lb/3 with a truncation structure while transmitting the SRS on the last symbol of the subframe.
上述方法还包括:当所述高层控制信息指示用户设备允许 PUCCH与 SRS 同时发送时, 如果 AckNackSRS-SimultaneousTransmission为 H 当前子帧需 要同时发送 PUCCH format l/la/lb/3和 SRS时, 所述用户设备釆用常规结构 发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所 述 SRS。
上述方法还包括:当所述高层控制信息指示用户设备允许 PUCCH与 SRS 同时发送时, 如果当前子帧需要同时发送 PUCCH format 2/2a/2b和 SRS, 所 述用户设备釆用常规结构发送所述 PUCCH format 2/2a/2b,同时在所述子帧的 最后一个符号上发送所述 SRS。 The method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the AckNackSRS-SimultaneousTransmission is H, the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user The device transmits the PUCCH format l/la/lb/3 using a conventional structure while transmitting the SRS on the last symbol of the subframe. The method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, if the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS, the user equipment sends the PUCCH format 2/2a/2b, while transmitting the SRS on the last symbol of the subframe.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 The method further includes: when the high layer control information indicates that the user equipment does not allow PUCCH and
SRS同时发送时, 如果 AckNackSRS-SimultaneousTransmission为真, 当前子 帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 所述用户设备釆用截短 结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发 送所述 SRS。 When the SRS is simultaneously transmitted, if the AckNackSRS-SimultaneousTransmission is true, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment sends the PUCCH format l/la/lb with a truncated structure. /3, while transmitting the SRS on the last symbol of the subframe.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 The method further includes: when the high layer control information indicates that the user equipment does not allow PUCCH and
SRS同时发送时, 如果 AckNackSRS-SimultaneousTransmission为假, 当前子 帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 所述用户设备釆用常规 结构发送所述 PUCCH format l/la/lb/3 , 且所述子帧上不发送 SRS。 When the SRS is simultaneously transmitted, if the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment sends the PUCCH format l/la/lb/ using a conventional structure. 3, and the SRS is not sent on the subframe.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 则当前子帧需要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b 和 SRS 时, 所述用户设备釆用常规结构发送所述 PUCCH format 2/2a/2b, 且所述子帧上不发送 SRS。 The method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS that carry the ACK/NACK, the user equipment The PUCCH format 2/2a/2b is transmitted in a conventional configuration, and the SRS is not transmitted on the subframe.
上述方法还包括:当所述高层控制信息指示用户设备允许 PUCCH与 SRS 同时发送, 则当前子帧需要同时发送 PUCCH、 PUSCH和 SRS时, 所述用户 设备按照只有 PUCCH和 PUSCH传输的场景发送 PUCCH和 PUSCH, 且所 述子帧的最后一个符号上不发送 PUSCH, 发送 SRS。 The method further includes: when the high-layer control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, and when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, the user equipment sends the PUCCH according to the scenario that only the PUCCH and the PUSCH are transmitted. PUSCH, and the PUSCH is not transmitted on the last symbol of the subframe, and the SRS is transmitted.
所述 SRS为周期性 SRS或者非周期性 SRS。 The SRS is a periodic SRS or an aperiodic SRS.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 SRS 同时发送, 且当前子帧需要同时发送只承载信道状态信息的 PUCCH format 2和非周期 SRS时, 所述用户设备在所述子帧上发送所述非周期 SRS, 且所述子帧上不发送所述只承载信道状态信息的 PUCCH format 2。 The method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the aperiodic SRS that only carry the channel state information, where the user equipment is in the The aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送,且当前子帧需要同时发送承载信道状态信息的 PUCCH format
2和周期 SRS时, 所述用户设备在所述子帧上发送所述承载信道状态信息的 PUCCH format 2, 且所述子帧上不发送所述周期 SRS。 The method further includes: when the high-level control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format that carries the channel state information. In the case of the SRS and the periodic SRS, the user equipment sends the PUCCH format 2 carrying the channel state information on the subframe, and the periodic SRS is not sent on the subframe.
上述方法还包括: 当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且当前子帧需要同时发送调度请求(SR )和非周期 SRS时, 所述用户设备在所述子帧上发送所述 SR, 且所述子帧上不发送所述非周期 SRS。 The method further includes: when the high-layer control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously send a scheduling request (SR) and an aperiodic SRS, where the user equipment is on the subframe The SR is sent, and the aperiodic SRS is not sent on the subframe.
所述方法应用于 SRS与 PUCCH在同一个分量载波上发送的场景,或者, 所述方法应用于 SRS与 PUCCH和 PUSCH在同一个分量载波上发送的场景。 The method is applied to a scenario in which the SRS and the PUCCH are sent on the same component carrier, or the method is applied to a scenario in which the SRS is transmitted on the same component carrier as the PUCCH and the PUSCH.
本发明还提供一种基站, 所述基站设置成: 发送高层控制信息给用户设 备, 并通过所述高层控制信息指示用户设备是否允许物理上行控制信道 ( PUCCH )和测量参考信号 (SRS ) 同时发送。 The present invention further provides a base station, the base station is configured to: send high layer control information to the user equipment, and indicate, by using the high layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously sent. .
所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 The high-level control information is newly defined information; or, is, existing high-level control information.
所述已有高层控制信息为已有的 PUCCH 和 PUSCH 同时传输 ( PUCCH-PUSCH-SimultaneousTransmission ) 的 信 息 , 当 所 述 PUCCH-PUSCH-SimultaneousTransmission取值为真时, 指示允许用户设备同 时发送 PUCCH与 SRS, 当 PUCCH-PUSCH-SimultaneousTransmission取值为 假时, 指示不允许用户设备同时发送 PUCCH与 SRS。 The existing high-layer control information is the information of the PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission). When the value of the PUCCH-PUSCH-Simultaneous Transmission is true, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS. When the value of the PUCCH-PUSCH-SimultaneousTransmission is false, it indicates that the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
所述高层控制信息为用户设备专有的。 The high layer control information is proprietary to the user equipment.
所述基站是通过无线资源控制信令发送所述高层控制信息至所述用户设 备。 The base station sends the high layer control information to the user equipment by using radio resource control signaling.
所述基站是设置成按照如下方式通过所述高层控制信息指示用户设备是 否允许 PUCCH和 SRS同时发送: 通过同一高层控制信息指示用户设备是否 允许 PUCCH和周期性 SRS同时发送和是否允许 PUCCH和非周期性 SRS同 时发送; 或者,通过独立的高层控制信息分别指示用户设备是否允许 PUCCH 和周期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The base station is configured to indicate, by using the high layer control information, whether the user equipment allows PUCCH and SRS to be simultaneously transmitted according to the following manner: indicating, by using the same high layer control information, whether the user equipment allows PUCCH and periodic SRS to be simultaneously transmitted, and whether to allow PUCCH and aperiodic The SRSs are simultaneously transmitted; or the independent high-layer control information respectively indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
本发明还提供一种用户设备, 所述用户设备设置成: 接收基站发送的高 层控制信息, 根据所述高层控制信息确定上行信道的发送; 其中, 所述高层 控制信息指示用户设备是否允许物理上行控制信道(PUCCH )和测量参考信
号 ( SRS ) 同时发送。 The user equipment is further configured to: receive the high layer control information sent by the base station, and determine the uplink channel transmission according to the high layer control information; wherein the high layer control information indicates whether the user equipment allows physical uplink Control channel (PUCCH) and measurement reference letter The number (SRS) is sent at the same time.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送且 ACK/NACK和 SRS 同时传输( AckNackSRS-SimultaneousTransmission )为真, 则在当前子帧需要 同时发送 PUCCH format l/la/lb/3 和 SRS 时, 釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送 SRS。 The user equipment is configured to determine transmission of an uplink channel by: when the high layer control information indicates that the user equipment allows PUCCH to be simultaneously transmitted with the SRS and the ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) is true, then the current When the subframe needs to transmit PUCCH format l/la/lb/3 and SRS simultaneously, the PUCCH format l/la/lb/3 is transmitted with the truncation structure, and the SRS is transmitted on the last symbol of the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用 户 设备允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission 为假, 则在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用常规结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be sent simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, the PUCCH format is required to be simultaneously transmitted in the current subframe. At /la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted using a conventional structure while the SRS is transmitted on the last symbol of the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送, 则在当前子帧需要同 时发送 PUCCH format 2/2a/2b和 SRS 时, 釆用常规结构发送所述 PUCCH format 2/2a/2b, 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS Transmitting the PUCCH format 2/2a/2b with a conventional structure while transmitting the SRS on the last symbol of the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission 为真, 则在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用截短结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is true, the PUCCH format needs to be simultaneously sent in the current subframe. When l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted with a truncation structure, and the SRS is transmitted on the last symbol of the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission 为假, 则在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用常规结构发送所述 PUCCH format l/la/lb/3 , 且所述子帧上不发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, the PUCCH format needs to be simultaneously sent in the current subframe. When l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted by a conventional structure, and the SRS is not transmitted on the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 则在当前子帧需 要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS时, 釆用常规 结构发送所述 PUCCH format 2/2a/2b, 且所述子帧上不发送 SRS。
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 则在当前子帧需要 同时发送 PUCCH、 PUSCH和 SRS时, 按照只有 PUCCH和 PUSCH传输的 场景发送 PUCCH 和 PUSCH , 且在所述子帧的最后一个符号上不发送 PUSCH, 发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the PUCCH format 2 carrying the ACK/NACK needs to be simultaneously transmitted in the current subframe. In the case of /2a/2b and SRS, the PUCCH format 2/2a/2b is transmitted using a conventional structure, and the SRS is not transmitted on the subframe. The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, according to only The PUCCH and PUSCH transmitted scenarios transmit PUCCH and PUSCH, and do not transmit PUSCH on the last symbol of the subframe, and transmit the SRS.
所述 SRS为周期性 SRS或者非周期性 SRS。 The SRS is a periodic SRS or an aperiodic SRS.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 则在当前子帧需 要同时发送只承载信道状态信息的 PUCCH format 2和非周期 SRS时,在所述 子帧上发送所述非周期 SRS, 且所述子帧上不发送所述只承载信道状态信息 的 PUCCH format 2。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that only carries the channel state information needs to be simultaneously transmitted in the current subframe. 2 and aperiodic SRS, the aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 则在当前子帧需 要同时发送承载信道状态信息的 PUCCH format 2和周期 SRS时,在所述子帧 上发送所述承载信道状态信息的 PUCCH format 2, 且所述子帧上不发送所述 周期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the PUCCH format 2 that needs to simultaneously transmit the channel state information in the current subframe is required. And the periodic SRS, the PUCCH format 2 carrying the channel state information is sent on the subframe, and the periodic SRS is not sent on the subframe.
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 则在当前子帧需 要同时发送调度请求(SR )和非周期 SRS时, 在所述子帧上发送所述 SR, 且所述子帧上不发送所述非周期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, then the scheduling request (SR) and the aperiod need to be simultaneously sent in the current subframe. In the SRS, the SR is sent on the subframe, and the aperiodic SRS is not sent on the subframe.
本发明给出了载波聚合场景下, 各种上行信道的发送方法。 本发明通过 设置高层信令使能来解决 SRS、 PUCCH和 PUCCH、 SRS、 PUSCH同时发送 的问题, 提高了 SRS传输效率, 使得基站可以更准确、 及时的获取上下行信 道信状态信息, 从而进行更好的调度, 提高系统整体性能。 附图概述 The present invention provides a method for transmitting various uplink channels in a carrier aggregation scenario. The present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting high-level signaling enablement, and improves SRS transmission efficiency, so that the base station can obtain uplink and downlink channel information state information more accurately and timely, thereby performing more Good scheduling to improve overall system performance. BRIEF abstract
图 1是现有技术中 PUCCH formatl/la/lb的时频位置示意图; 1 is a schematic diagram of a time-frequency position of a PUCCH format 1/la/lb in the prior art;
图 2是现有技术中有 SRS发送时 PUCCH formatl/la/lb的截短结构的时
频位置示意图; 2 is a diagram showing a truncated structure of PUCCH format 1/la/lb when SRS is transmitted in the prior art. Frequency position diagram;
图 3是本发明中 PUCCH formatl/la/lb和 SRS同时发送的时频位置示意 图; 3 is a schematic diagram of a time-frequency position of simultaneous transmission of PUCCH format 1/la/lb and SRS in the present invention;
图 4是本发明中 PUCCH formatl/la/lb和 SRS及 PUSCH同时发送的时频 位置示意图; 4 is a schematic diagram showing the time-frequency positions of PUCCH format 1/la/lb and SRS and PUSCH simultaneously transmitted in the present invention;
图 5是现有技术中 PUCCH format2/2a/2b/3的时频位置示意图; 5 is a schematic diagram of a time-frequency position of a PUCCH format 2/2a/2b/3 in the prior art;
图 6是现有技术中有 SRS发送时 PUCCH format 3的截短结构的时频位置 示意图; 6 is a schematic diagram showing a time-frequency position of a truncated structure of PUCCH format 3 when SRS is transmitted in the prior art;
图 7是本发明中 PUCCH format2/2a/2b/3和 SRS同时发送的时频位置示 意图; 7 is a schematic diagram showing the time-frequency position of simultaneous transmission of PUCCH format 2/2a/2b/3 and SRS in the present invention;
图 8是本发明中 PUCCH format2/2a/2b/3和 SRS及 PUSCH同时发送的时 频位置示意图。 Figure 8 is a diagram showing the time-frequency positions of PUCCH format 2/2a/2b/3 and SRS and PUSCH simultaneously transmitted in the present invention.
本发明的较佳实施方式 Preferred embodiment of the invention
本发明的核心思想是: 基站给用户设备配置是否允许 PUCCH与 SRS同 时发送的高层控制信息,用户设备根据高层控制信息确定其上行信道的发送。 The core idea of the present invention is: The base station configures the user equipment whether to allow the PUCCH to transmit the high layer control information simultaneously with the SRS, and the user equipment determines the uplink channel transmission according to the high layer control information.
本发明提供一种上行信道发送方法, 包括: 基站发送高层控制信息给用 户设备,所述高层控制信息指示用户设备是否允许 PUCCH与 SRS同时发送。 The present invention provides an uplink channel sending method, including: the base station sends high layer control information to the user equipment, and the high layer control information indicates whether the user equipment allows the PUCCH to be simultaneously transmitted with the SRS.
该高层控制信息为 UE specific (用户设备专有) , 通过 RRC ( Radio Resource Control, 无线资源控制)信令通知用户设备。 The high layer control information is UE specific (user equipment specific), and the user equipment is notified by RRC (Radio Resource Control) signaling.
该高层控制信息对周期和非周期的 SRS可以是独立配置的, 也可以是同 一配置; 即: 所述基站通过同一高层控制信息指示用户设备是否允许 PUCCH 和周期性 SRS同时发送和是否允许 PUCCH和非周期性 SRS同时发送;或者, 所述基站通过独立的高层控制信息分别指示用户设备是否允许 PUCCH和周 期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The high-level control information may be configured independently or in the same configuration for the periodic and aperiodic SRS. That is, the base station indicates, by using the same high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted and whether the PUCCH and the PUCCH are allowed. The aperiodic SRS is simultaneously transmitted; or the base station separately indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted through independent high-layer control information, and whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
当所述的高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 如 果 高 层 信 息 ACK/NACK 和 SRS 同 时 传 输 ( AckNackSRS-SimultaneousTransmission )为 TRUE (真) , 当前子帧需要同
时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS )时, UE将 釆用截短结构来发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上 发送 SRS; 如果高层信息 AckNackSRS-SimultaneousTransmission为 FALSE (假) , 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期 和非周期 SRS )时, UE将釆用常规结构来发送 PUCCH format l/la/lb/3 , 同 时在子帧的最后一个符号上发送 SRS; When the high layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, if the high layer information ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) is TRUE (true), the current subframe needs to be the same When transmitting PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the truncation structure to transmit PUCCH format l/la/lb/3, while the last symbol in the subframe Sending SRS on top; If the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) simultaneously, the UE will use the conventional structure. Send PUCCH format l/la/lb/3, and send SRS on the last symbol of the subframe;
当所述的高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 当前子帧需要同时发送 PUCCH format 2/2a/2b和 SRS (包括周期 SRS和非周 期 SRS )时, UE将釆用常规结构发送 PUCCH format 2/2a/2b, 同时在子帧的 最后一个符号上发送 SRS; When the high-layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS (including the periodic SRS and the aperiodic SRS), the UE adopts the conventional structure. Transmitting PUCCH format 2/2a/2b while transmitting SRS on the last symbol of the subframe;
当所述的高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 如果高层信息 AckNackSRS-SimultaneousTransmission为 TRUE, 则当前子帧 需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符 号上发送 SRS; When the high-level control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, the current subframe needs to simultaneously transmit the PUCCH format l/la/lb/3 and the SRS (including the period and In the case of aperiodic SRS, the UE will transmit the PUCCH format l/la/lb/3 with the truncation structure, and send the SRS on the last symbol of the subframe;
当所述的高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 如果高层信息 AckNackSRS-SimultaneousTransmission为 FALSE , 当前子帧需 要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用常规结构来发送 PUCCH format l/la/lb/3, 同时 UE将不发送 SRS; 当所述的高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 当前子帧需要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS(包 括周期和非周期 SRS )时, UE将釆用常规结构来发送 PUCCH format 2/2a/2b, 同时 UE将不发送 SRS; When the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to simultaneously transmit the PUCCH format l/la/lb/3 and the SRS (including the period and the non- In the case of the periodic SRS), the UE will transmit the PUCCH format l/la/lb/3 using the conventional structure, and the UE will not transmit the SRS; when the high-layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, the current sub- When a frame needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic and aperiodic SRS) carrying ACK/NACK, the UE will transmit PUCCH format 2/2a/2b using the conventional structure, and the UE will not transmit SRS. ;
当所述的高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 当前子帧需要同时发送承载 CSI(Channel state information,信道状态信息)的 PUCCH format 2和非周期 SRS时, UE将发送非周期 SRS, 同时 UE将不发 送承载 CSI的 PUCCH format 2; 当所述高层控制信息指示用户设备不允许 PUCCH 与 SRS 同时发送, 当前子帧需要同时发送承载信道状态信息的 PUCCH format 2和周期 SRS时,所述用户设备在所述子帧上发送所述承载信
道状态信息的 PUCCH format 2, 且所述子帧上不发送所述周期 SRS。 When the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the aperiodic SRS carrying the CSI (Channel state information), the UE will send the aperiodic The SRS, at the same time, the UE will not transmit the PUCCH format 2 carrying the CSI; when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the periodic SRS carrying the channel state information, Transmitting, by the user equipment, the bearer letter on the subframe The PUCCH format 2 of the channel status information, and the period SRS is not transmitted on the subframe.
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 当前子帧需要同时发送 SR和非周期 SRS时, 所述用户设备在所述子帧上发 送所述 SR, 且所述子帧上不发送所述非周期 SRS。 When the high-layer control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS, when the current subframe needs to simultaneously send the SR and the aperiodic SRS, the user equipment sends the SR on the subframe, and the child The aperiodic SRS is not transmitted on the frame.
所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 其中, 为已有高层控制信息时, 所述高层控制信息可以是基站根据已有的高层配置 信息, 隐含的指示用户设备是否允许 PUCCH与 SRS同时发送。 The high-level control information is newly defined information; or, is, existing high-level control information. The high-level control information may be that the base station implicitly indicates whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted according to the existing high-level configuration information.
所述的已有的高层配置信息可以为 PUCCH 和 PUSCH 同时传输 ( PUCCH-PUSCH-SimultaneousTransmission ) 信 息 ; 当 PUCCH-PUSCH-SimultaneousTransmission为 TRUE时,用户设备允许 PUCCH 与 SRS同时发送,当 PUCCH-PUSCH-SimultaneousTransmission为 FALSE时, 用户设备不允许 PUCCH与 SRS同时发送。 The existing high-level configuration information may be PUCCH-PUSCH-Simultaneous Transmission (PUCCH-PUSCH-Simultaneous Transmission) information; when PUCCH-PUSCH-SimultaneousTransmission is TRUE, the user equipment allows PUCCH and SRS to be simultaneously transmitted, when PUCCH-PUSCH-SimultaneousTransmission When FALSE, the user equipment does not allow PUCCH and SRS to be sent simultaneously.
当所述的高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 当前子帧需要同时发送 PUCCH、PUSCH和 SRS(包括周期 SRS和非周期 SRS ) 时, PUCCH和 PUSCH按照只有 PUCCH和 PUSCH传输的场景发送, 其中, SRS所在上行分量载波的最后一个符号上不发送 PUSCH, 发送 SRS。 When the high-layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS (including the periodic SRS and the aperiodic SRS), the PUCCH and the PUSCH are transmitted according to only the PUCCH and the PUSCH. The scenario is sent, where the PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent.
所述方法应用于 SRS与 PUCCH在同一个分量载波上发送的场景,或者, 所述方法应用于 SRS与 PUCCH和 PUSCH在同一个分量载波上发送的场景。 The method is applied to a scenario in which the SRS and the PUCCH are sent on the same component carrier, or the method is applied to a scenario in which the SRS is transmitted on the same component carrier as the PUCCH and the PUSCH.
为了便于理解本发明,下面结合具体实施例对本发明进行进一步的阐述。 方式一: In order to facilitate the understanding of the present invention, the present invention will be further described below in conjunction with the specific embodiments. method one:
定义新 的 高 层信 息 PUCCH-SRS-SimultaneousTransmission , 当 PUCCH-SRS-SimultaneousTransmission为 TRUE时, 允许用户设备同时发送 PUCCH与 SRS, 当 PUCCH-SRS-SimultaneousTransmission为 FLASE时, 不 允许用户设备同时发送 PUCCH与 SRS; Defining a new high-level information PUCCH-SRS-SimultaneousTransmission, when the PUCCH-SRS-SimultaneousTransmission is TRUE, the user equipment is allowed to simultaneously transmit the PUCCH and the SRS, and when the PUCCH-SRS-SimultaneousTransmission is the FLASE, the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS;
方式二: Method 2:
基站根据已有的高层配置信息, 隐含的指示用户设备是否允许 PUCCH 与 SRS同时发送。
所 述 已 有 的 高 层 配 置 信 息 可 以 为The base station implicitly indicates whether the user equipment allows the PUCCH and the SRS to be simultaneously transmitted according to the existing high-level configuration information. The existing high-level configuration information may be
PUCCH-PUSCH-SimultaneousTransmission ; 当PUCCH-PUSCH-SimultaneousTransmission ;
PUCCH-PUSCH-SimultaneousTransmission为 TRUE时, 允许用户设备同时发 送 PUCCH与 SRS,当 PUCCH-PUSCH-SimultaneousTransmission为 FALSE时, 不允许用户设备同时发送 PUCCH与 SRS。 When PUCCH-PUSCH-SimultaneousTransmission is TRUE, the user equipment is allowed to simultaneously transmit PUCCH and SRS. When PUCCH-PUSCH-SimultaneousTransmission is FALSE, the user equipment is not allowed to send PUCCH and SRS at the same time.
实施例 1: Example 1:
只有 PUCCH和 SRS同时传输的场景: Only scenes where PUCCH and SRS are transmitted simultaneously:
当 PUCCH-SRS-SimultaneousTransmission 为 TRUE 时, 如果高层信息 AckNackSRS-SimultaneousTransmission 为 TRUE , 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用截 短结构来发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上发送 SRS,如图 2和图 6所示;如果高层信息 AckNackSRS-SimultaneousTransmission 为 FALSE, 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周 期和非周期 SRS ) 时, UE将釆用常规结构来发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上发送 SRS, 如图 3和图 7所示; When the PUCCH-SRS-SimultaneousTransmission is TRUE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use Truncating the structure to send PUCCH format l/la/lb/3, and sending SRS on the last symbol of the subframe, as shown in Figure 2 and Figure 6; if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to be simultaneously When PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) are transmitted, the UE will transmit PUCCH format l/la/lb/3 using the conventional structure and send on the last symbol of the subframe. SRS, as shown in Figures 3 and 7;
当 PUCCH-SRS-SimultaneousTransmission为 TRUE时, 当前子帧需要同 时发送 PUCCH format 2/2a/2b和 SRS (包括周期 SRS和非周期 SRS )时, UE 将釆用常规结构发送 PUCCH format 2/2a/2b,同时在子帧的最后一个符号上发 送 SRS, 如图 7所示; When PUCCH-SRS-SimultaneousTransmission is TRUE, when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic SRS and aperiodic SRS), the UE will transmit PUCCH format 2/2a/2b using the conventional structure. And send the SRS on the last symbol of the subframe, as shown in Figure 7;
当 PUCCH-SRS-SimultaneousTransmission为 FLASE 时, 如果高层信息 AckNackSRS-SimultaneousTransmission为 TRUE, 则当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用截 短结构发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上发送 SRS, 如图 2和图 6所示; When the PUCCH-SRS-SimultaneousTransmission is FLASE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, then the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will 釆Transmitting PUCCH format l/la/lb/3 with a truncated structure, and transmitting SRS on the last symbol of the subframe, as shown in FIG. 2 and FIG. 6;
当 PUCCH-SRS-SimultaneousTransmission为 FLASE 时, 如果高层信息 AckNackSRS-SimultaneousTransmission 为 FALSE , 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用常
规结构来发送 PUCCH format l/la/lb/3 , 同时 UE将不发送 SRS, 如图 1和图 5所示; When PUCCH-SRS-SimultaneousTransmission is FLASE, if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) simultaneously, the UE will use Often The structure is configured to send PUCCH format l/la/lb/3, and the UE will not send SRS, as shown in Figure 1 and Figure 5;
当 PUCCH-SRS-SimultaneousTransmission为 FLASE时, 当前子帧需要同 时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS(包括周期和非周期 SRS ) 时, UE将釆用常规结构来发送 PUCCH format 2/2a/2b, 同时 UE将不 发送 SRS, 如图 1所示; When PUCCH-SRS-SimultaneousTransmission is FLASE, when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic and aperiodic SRS) carrying ACK/NACK, the UE will use the conventional structure to transmit PUCCH format. 2/2a/2b, while the UE will not send SRS, as shown in Figure 1;
当 PUCCH-SRS-SimultaneousTransmission为 FLASE时, 当前子帧需要同 时发送承载 CSI的 PUCCH format 2和非周期 SRS时,UE将发送非周期 SRS, 同时 UE将不发送承载 CSI的 PUCCH format 2。 When PUCCH-SRS-SimultaneousTransmission is FLASE, when the current subframe needs to transmit the PUCCH format 2 and the aperiodic SRS carrying the CSI, the UE will send the aperiodic SRS, and the UE will not send the PUCCH format 2 carrying the CSI.
实施例 2: Example 2:
只有 PUCCH和 SRS同时传输的场景; Only scenes where PUCCH and SRS are simultaneously transmitted;
当 PUCCH-PUSCH-SimultaneousTransmission为 TRUE时,如果高层信息 AckNackSRS-SimultaneousTransmission 为 TRUE , 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用截 短结构来发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上发送 SRS; 如果高层信息 AckNackSRS-SimultaneousTransmission为 FALSE, 当前 子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用常规结构来发送 PUCCH format l/la/lb/3 , 同时在子帧的最后 一个符号上发送 SRS, 如图 4和图 8所示, 其中 PUSCH和 SRS的频域位置 可以相同, 也可以不同; When the PUCCH-PUSCH-SimultaneousTransmission is TRUE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the UE. Truncated structure to send PUCCH format l/la/lb/3, and send SRS on the last symbol of the subframe; if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, the current subframe needs to send PUCCH format l/la/lb/ at the same time 3 and SRS (including periodic and aperiodic SRS), the UE will use the normal structure to send PUCCH format l/la/lb/3, and send SRS on the last symbol of the subframe, as shown in Figure 4 and Figure 8. The frequency domain locations of the PUSCH and the SRS may be the same or different.
当 PUCCH-PUSCH-SimultaneousTransmission为 TRUE时, 当前子帧需要 同时发送 PUCCH format 2/2a/2b和 SRS (包括周期 SRS和非周期 SRS ) 时, UE将釆用常规结构发送 PUCCH format 2/2a/2b, 同时在子帧的最后一个符号 上发送 SRS, 如图 8所示, 其中 PUSCH和 SRS的频域位置可以相同也可以 不同; When PUCCH-PUSCH-SimultaneousTransmission is TRUE, when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic SRS and aperiodic SRS), the UE will transmit PUCCH format 2/2a/2b using the conventional structure. And transmitting the SRS on the last symbol of the subframe, as shown in FIG. 8, where the frequency domain positions of the PUSCH and the SRS may be the same or different;
当 PUCCH-PUSCH-SimultaneousTransmission为 FLASE时, 如果高层信 息 AckNackSRS-SimultaneousTransmission为 TRUE, 则当前子帧需要同时发
送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS )时, UE将釆用 截短结构发送 PUCCH format l/la/lb/3 , 同时在子帧的最后一个符号上发送 SRS, 如图 2和图 6所示; When the PUCCH-PUSCH-SimultaneousTransmission is FLASE, if the high-level information AckNackSRS-SimultaneousTransmission is TRUE, the current subframe needs to be sent simultaneously. When PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS) are sent, the UE will transmit PUCCH format l/la/lb/3 with truncation structure and send on the last symbol of the subframe. SRS, as shown in Figure 2 and Figure 6;
当 PUCCH-PUSCH-SimultaneousTransmission为 FLASE时, 如果高层信 息 AckNackSRS-SimultaneousTransmission为 FALSE , 当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS (包括周期和非周期 SRS ) 时, UE将釆用常 规结构来发送 PUCCH format l/la/lb/3 , 同时 UE将不发送 SRS, 如图 1和图 5所示; When the PUCCH-PUSCH-SimultaneousTransmission is FLASE, if the high-level information AckNackSRS-SimultaneousTransmission is FALSE, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS (including periodic and aperiodic SRS), the UE will use the UE. The conventional structure sends PUCCH format l/la/lb/3, and the UE will not send SRS, as shown in FIG. 1 and FIG. 5;
当 PUCCH-PUSCH-SimultaneousTransmission为 FLASE时, 当前子帧需 要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS(包括周期和非 周期 SRS ) 时, UE将釆用常规结构来发送 PUCCH format 2/2a/2b , 同时 UE 将不发送 SRS, 如图 5所示; When PUCCH-PUSCH-SimultaneousTransmission is FLASE, when the current subframe needs to simultaneously transmit PUCCH format 2/2a/2b and SRS (including periodic and aperiodic SRS) carrying ACK/NACK, the UE will use the conventional structure to transmit PUCCH format. 2/2a/2b, while the UE will not send SRS, as shown in Figure 5;
当 PUCCH-PUSCH-SimultaneousTransmission为 FLASE时, 当前子帧需 要同时发送只承载 CSI的 PUCCH format 2和非周期 SRS时, UE将发送非周 期 SRS, 同时 UE将不发送只承载 CSI的 PUCCH format 2。 When PUCCH-PUSCH-SimultaneousTransmission is FLASE, when the current subframe needs to transmit both PUCCH format 2 and aperiodic SRS carrying CSI, the UE will send a non-periodic SRS, and the UE will not transmit PUCCH format 2 carrying only CSI.
实施例 3 Example 3
PUSCH, PUCCH和 SRS同时传输的场景; a scenario in which PUSCH, PUCCH, and SRS are simultaneously transmitted;
当高层控制信息指示 PUCCH-PUSCH-SimultaneousTransmission为 TRUE 时, 当前子帧需要同时发送 PUCCH、 PUSCH和 SRS (包括周期 SRS和非周 期 SRS ) 时, PUCCH和 PUSCH按照只有 PUCCH和 PUSCH传输的场景发 送, 其中, SRS 所在上行分量载波的最后一个符号上不发送 PUSCH, 发送 SRS; When the high-layer control information indicates that the PUCCH-PUSCH-SimultaneousTransmission is TRUE, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS (including the periodic SRS and the aperiodic SRS), the PUCCH and the PUSCH are transmitted according to the scenario in which only the PUCCH and the PUSCH are transmitted, where The PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent;
当 PUCCH-PUSCH-SimultaneousTransmission为 FLASE时, UCI ( Uplink Control Information, 上行控制信息)承载在 PUSCH上, 其中, SRS所在上行 分量载波的最后一个符号上不发送 PUSCH, 发送 SRS; 其中, UCI 包括 ACK/NACK, CSI, SR ( Scheduling Request, 调度请求) 中一个或多个。
实施例 4 When the PUCCH-PUSCH-SimultaneousTransmission is the FLASE, the UCI (Uplink Control Information) is carried on the PUSCH, where the PUSCH is not sent on the last symbol of the uplink component carrier where the SRS is located, and the SRS is sent; where the UCI includes the ACK/ One or more of NACK, CSI, SR (Scheduling Request). Example 4
当高层控制信息指示用户设备不允许 PUCCH和 SRS同时传输时: 当前为只有 PUCCH和 SRS同时传输的场景; When the high-level control information indicates that the user equipment does not allow the PUCCH and the SRS to transmit simultaneously: the scenario that only PUCCH and SRS are simultaneously transmitted;
当前子帧需要同时传输 ACK/NACK与 SRS (周期和非周期) 时, UE将 在子帧上传输 ACK/NACK, 不传输 SRS; When the current subframe needs to transmit ACK/NACK and SRS (periodic and aperiodic) simultaneously, the UE will transmit ACK/NACK on the subframe and not transmit the SRS;
当前子帧需要同时传输 SR ( Scheduling Request, 调度请求)与 SRS (周 期和非周期) 时, UE将在子帧上传输所述 SR, 不传输所述非周期 SRS; 当前子帧需要同时传输 CSI与周期 SRS时, UE将在子帧上传输 CSI,不 传输所述周期 SRS; When the current subframe needs to transmit both the SR (Scheduling Request) and the SRS (periodic and aperiodic), the UE will transmit the SR on the subframe and not transmit the aperiodic SRS; the current subframe needs to transmit the CSI at the same time. And the periodic SRS, the UE will transmit CSI on the subframe, and does not transmit the periodic SRS;
当前子帧需要同时传输 CSI与非周期 SRS时, UE将在子帧上传输非周 期 SRS, 不传输 CSI; When the current subframe needs to transmit CSI and aperiodic SRS simultaneously, the UE will transmit the non-periodic SRS on the subframe and not transmit the CSI;
当前为 PUSCH、 PUCCH和 SRS同时传输的场景, UCI承载在 PUSCH 上,其中,最后一个符号上不发送 PUSCH,发送 SRS; UCI包括 ACK/NACK, CSI, SR中一个或多个。 Currently, the scenario where the PUSCH, the PUCCH, and the SRS are simultaneously transmitted, the UCI is carried on the PUSCH, where the PUSCH is not transmitted on the last symbol, and the SRS is transmitted; the UCI includes one or more of ACK/NACK, CSI, and SR.
本发明还提供一种基站, 所述基站设置成: 发送高层控制信息给用户设 备, 所述高层控制信息指示用户设备是否允许物理上行控制信道(PUCCH ) 和测量参考信号 (SRS ) 同时发送。 其中, 所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 其中, 所述高层控制信息为已有的 PUCCH 和 PUSCH 同时传输The present invention further provides a base station, where the base station is configured to: send high layer control information to the user equipment, and the high layer control information indicates whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously transmitted. The high-level control information is newly defined information; or, is, existing high-level control information. The high-level control information is that the existing PUCCH and PUSCH are simultaneously transmitted.
( PUCCH-PUSCH-SimultaneousTransmission ) 信 息 , 当 所 述 PUCCH-PUSCH-SimultaneousTransmission取值为真时, 允许用户设备同时发 送 PUCCH与 SRS,当 PUCCH-PUSCH-SimultaneousTransmission取值为假时, 不允许用户设备同时发送 PUCCH与 SRS。 (PUCCH-PUSCH-SimultaneousTransmission) information, when the value of the PUCCH-PUSCH-SimultaneousTransmission is true, the user equipment is allowed to simultaneously send the PUCCH and the SRS, and when the value of the PUCCH-PUSCH-SimultaneousTransmission is false, the user equipment is not allowed to send at the same time. PUCCH and SRS.
其中, 所述高层控制信息为用户设备专有的。 所述基站是用于通过无线 资源控制信令发送所述高层控制信息至所述用户设备。 其中,所述基站是通过同一高层控制信息指示用户设备是否允许 PUCCH
和周期性 SRS同时发送和是否允许 PUCCH和非周期性 SRS同时发送;或者, 所述基站通过独立的高层控制信息分别指示用户设备是否允许 PUCCH和周 期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The high layer control information is specific to the user equipment. The base station is configured to send the high layer control information to the user equipment by using radio resource control signaling. The base station indicates, by using the same high layer control information, whether the user equipment allows PUCCH. Simultaneously transmitting with the periodic SRS and allowing the PUCCH and the aperiodic SRS to be simultaneously transmitted; or the base station respectively indicates whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted through independent high-layer control information, whether the PUCCH and the aperiodic are allowed. SRS is sent simultaneously.
本发明还提供一种用户设备, 所述用户设备设置成: 接收基站发送的高 层控制信息, 根据所述高层控制信息确定上行信道的发送; 其中, 所述高层 控制信息指示用户设备是否允许物理上行控制信道(PUCCH )和测量参考信 号 ( SRS ) 同时发送。 The user equipment is further configured to: receive the high layer control information sent by the base station, and determine the uplink channel transmission according to the high layer control information; wherein the high layer control information indicates whether the user equipment allows physical uplink The Control Channel (PUCCH) and the Measurement Reference Signal (SRS) are transmitted simultaneously.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送且 AckNackSRS 同时传输( AckNackSRS-SimultaneousTransmission )信息为真, 在当前子帧需 要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS and the AckNackSRS-Simultaneous Transmission information is true, in the current subframe. When PUCCH format l/la/lb/3 and SRS need to be transmitted simultaneously, PUCCH format l/la/lb/3 is transmitted with a truncation structure, and SRS is transmitted on the last symbol of the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备允许 PUCCH 与 SRS 同时发送, 且 AckNackSRS-SimultaneousTransmission 为假, 在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用常规结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the uplink channel transmission by: when the high layer control information indicates that the user equipment allows the PUCCH to be sent simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, and the PUCCH format needs to be simultaneously sent in the current subframe. For l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted using a conventional structure while the SRS is transmitted on the last symbol of the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送, 在当前子帧需 要同时发送 PUCCH format 2/2a/2b和 SRS时,釆用常规结构发送所述 PUCCH format 2/2a/2b, 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, and the PUCCH format 2/2a/2b and the SRS need to be simultaneously transmitted in the current subframe. The PUCCH format 2/2a/2b is transmitted with a conventional structure while the SRS is transmitted on the last symbol of the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH 与 SRS 同时发送, 且 AckNackSRS-SimultaneousTransmission 为真, 在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 釆用截短结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is true, and the PUCCH needs to be simultaneously sent in the current subframe. When format l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted with a truncation structure, and the SRS is transmitted on the last symbol of the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH 与 SRS 同时发送, 且 AckNackSRS-SimultaneousTransmission 为假, 在当前子帧需要同时发送
PUCCH format l/la/lb/3和 SRS时, 釆用常规结构发送所述 PUCCH format l/la/lb/3 , 且所述子帧上不发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-level control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to be simultaneously sent. In PUCCH format l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted by a conventional structure, and the SRS is not transmitted on the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 在当前子 帧需要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS时, 釆用 常规结构发送所述 PUCCH format 2/2a/2b, 且所述子帧上不发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that carries the ACK/NACK is required to be simultaneously transmitted in the current subframe. In the case of 2/2a/2b and SRS, the PUCCH format 2/2a/2b is transmitted using a conventional structure, and the SRS is not transmitted on the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 在当前子帧 需要同时发送 PUCCH、 PUSCH和 SRS时, 按照只有 PUCCH和 PUSCH传 输的场景发送 PUCCH和 PUSCH, 且最后一个符号上不发送 PUSCH, 发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, according to Only the PUCCH and PUSCH transmission scenarios transmit PUCCH and PUSCH, and the PUSCH is not transmitted on the last symbol, and the SRS is transmitted.
其中, 所述 SRS为周期性 SRS或者非周期性 SRS。 The SRS is a periodic SRS or an aperiodic SRS.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 在当前子 帧需要同时发送只承载信道状态信息的 PUCCH format 2和非周期 SRS时,在 所述子帧上发送所述非周期 SRS, 且所述子帧上不发送所述只承载信道状态 信息的 PUCCH format 2。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH that only carries the channel state information needs to be simultaneously transmitted in the current subframe. In the format 2 and the aperiodic SRS, the aperiodic SRS is sent on the subframe, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 在当前子 帧需要同时发送承载信道状态信息的 PUCCH format 2和周期 SRS时,在所述 子帧上发送所述承载信道状态信息的 PUCCH format 2, 且所述子帧上不发送 所述周期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high-layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, the PUCCH format that needs to simultaneously transmit the bearer channel state information in the current subframe In the case of the SRS and the periodic SRS, the PUCCH format 2 carrying the channel state information is transmitted on the subframe, and the periodic SRS is not transmitted on the subframe.
其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所 述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 在当前子 帧需要同时发送调度请求 (SR )和非周期 SRS 时, 在所述子帧上发送所述 SR, 且所述子帧上不发送所述非周期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, the scheduling request (SR) and the non-send need to be simultaneously sent in the current subframe. During periodic SRS, the SR is sent on the subframe, and the aperiodic SRS is not sent on the subframe.
从上面的实施例可以看出本发明所给的方法, 通过设置相应的信令使能 来解决 SRS、 PUCCH和 PUCCH、 SRS、 PUSCH同时发送的问题,提高了 SRS
传输效率, 使得基站可以更准确, 及时的获取上下行信道状态信息, 从而进 行更好的调度, 提高系统整体性能。 It can be seen from the above embodiments that the method provided by the present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting corresponding signaling enablement, and improves SRS. The transmission efficiency enables the base station to obtain uplink and downlink channel state information more accurately and timely, thereby performing better scheduling and improving overall system performance.
以上所述仅为本发明的优选实施例而已, 并不用于限制本发明, 对于本 领域的技术人员来说, 本发明可以有各种更改和变化。 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 the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.
工业实用性 Industrial applicability
与现有技术相比,本发明通过设置高层信令使能来解决 SRS、 PUCCH和 PUCCH、 SRS、 PUSCH同时发送的问题, 提高了 SRS传输效率, 使得基站 可以更准确、 及时的获取上下行信道信状态信息, 从而进行更好的调度, 提 高系统整体性能。
Compared with the prior art, the present invention solves the problem of simultaneous transmission of SRS, PUCCH, PUCCH, SRS, and PUSCH by setting high-layer signaling enablement, improves SRS transmission efficiency, and enables the base station to acquire uplink and downlink channels more accurately and timely. Signal status information for better scheduling and overall system performance.
Claims
1、 一种上行信道发送方法, 包括: 1. An uplink channel sending method, comprising:
基站发送高层控制信息给用户设备, 并通过所述高层控制信息指示用户 设备是否允许物理上行控制信道(PUCCH )和测量参考信号 (SRS ) 同时发 送。 The base station sends the high layer control information to the user equipment, and indicates, by the high layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously transmitted.
2、 如权利要求 1所述的方法, 其中, 2. The method of claim 1 wherein
所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 The high-level control information is newly defined information; or, is, existing high-level control information.
3、 如权利要求 2所述的方法, 其中, 3. The method of claim 2, wherein
所述已有高层控制信息为已有的 PUCCH和物理上行共享信道( PUSCH ) 同时传输 ( PUCCH-PUSCH-SimultaneousTransmission ) 的信息, 当所述 PUCCH-PUSCH-SimultaneousTransmission取值为真时, 指示允许用户设备同 时发送 PUCCH与 SRS, 当 PUCCH-PUSCH-SimultaneousTransmission取值为 假时, 指示不允许用户设备同时发送 PUCCH与 SRS。 The existing high-layer control information is information that is transmitted by the existing PUCCH and the physical uplink shared channel (PUSCH) (PUCCH-PUSCH-Simultaneous Transmission), and when the PUCCH-PUSCH-SimultaneousTransmission is true, the user equipment is allowed to be indicated. The PUCCH and the SRS are simultaneously sent. When the value of the PUCCH-PUSCH-SimultaneousTransmission is false, the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
4、 如权利要求 1所述的方法, 其中, 所述高层控制信息为用户设备专有 的。 4. The method of claim 1, wherein the high layer control information is user device specific.
5、 如权利要求 1所述的方法, 其中, 所述基站是通过无线资源控制信令 发送所述高层控制信息至所述用户设备。 5. The method according to claim 1, wherein the base station sends the high layer control information to the user equipment by using radio resource control signaling.
6、 如权利要求 1所述的方法, 其中, 通过所述高层控制信息指示用户设 备是否允许 PUCCH和 SRS同时发送的步骤包括: The method of claim 1, wherein the step of indicating, by the higher layer control information, whether the user equipment allows PUCCH and SRS to be simultaneously transmitted comprises:
所述基站通过同一高层控制信息指示用户设备是否允许 PUCCH和周期 性 SRS同时发送和是否允许 PUCCH和非周期性 SRS同时发送; 或者, 所述 基站通过独立的高层控制信息分别指示用户设备是否允许 PUCCH和周期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The base station indicates, by using the same high-layer control information, whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted, and whether the PUCCH and the aperiodic SRS are simultaneously transmitted; or the base station separately indicates whether the user equipment allows the PUCCH through the independent high-layer control information. Simultaneously transmitted with the periodic SRS, whether the PUCCH and the aperiodic SRS are allowed to be simultaneously transmitted.
7、 如权利要求 1所述的方法, 还包括: 7. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 如 果 ACK/NACK和 SRS同时传输( AckNackSRS-SimultaneousTransmission )为 真, 当前子帧需要同时发送?11〇01 &111^ 1/1 /11)/3和81 8时, 所述用户设 备釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符 号上发送 SRS。 When the high layer control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, if the ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) are true, the current subframe needs to be simultaneously transmitted. 11〇01 &111^ 1/1 /11)/3 and 81 8, the user setting The PUCCH format l/la/lb/3 is transmitted with a truncated structure, and the SRS is transmitted on the last symbol of the subframe.
8、 如权利要求 1所述的方法, 还包括: 8. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 如 果 AckNackSRS-SimultaneousTransmission 为假, 当前子帧需要同时发送 PUCCH format l/la/lb/3 和 SRS 时, 所述用户设备釆用常规结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 When the high-level control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, if the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to simultaneously transmit the PUCCH format l/la/lb/3 and the SRS, the user equipment uses the conventional The structure transmits the PUCCH format l/la/lb/3 while transmitting the SRS on the last symbol of the subframe.
9、 如权利要求 1所述的方法, 还包括: 9. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送时, 如 果当前子帧需要同时发送 PUCCH format 2/2a/2b和 SRS, 所述用户设备釆用 常规结构发送所述 PUCCH format 2/2a/2b,同时在所述子帧的最后一个符号上 发送所述 SRS。 When the high-level control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, if the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS, the user equipment sends the PUCCH format 2/2a by using a conventional structure. /2b while transmitting the SRS on the last symbol of the subframe.
10、 如权利要求 1所述的方法, 还包括: 10. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 如果 AckNackSRS-SimultaneousTransmission 为真, 当前子帧需要同时发送 PUCCH format l/la/lb/3 和 SRS 时, 所述用户设备釆用截短结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 When the high-level control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS, if the AckNackSRS-SimultaneousTransmission is true, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment uses The truncated structure transmits the PUCCH format l/la/lb/3 while transmitting the SRS on the last symbol of the subframe.
11、 如权利要求 1所述的方法, 还包括: 11. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送时, 如果 AckNackSRS-SimultaneousTransmission 为假, 当前子帧需要同时发送 PUCCH format l/la/lb/3 和 SRS 时, 所述用户设备釆用常规结构发送所述 PUCCH format l/la/lb/3 , 且所述子帧上不发送 SRS。 When the high-level control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS, if the AckNackSRS-SimultaneousTransmission is false, and the current subframe needs to simultaneously transmit PUCCH format l/la/lb/3 and SRS, the user equipment uses The conventional structure transmits the PUCCH format l/la/lb/3, and the SRS is not transmitted on the subframe.
12、 如权利要求 1所述的方法, 还包括: 12. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 则 当前子帧需要同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS时, 所述用户设备釆用常规结构发送所述 PUCCH format 2/2a/2b,且所述子帧上不 发送 SRS。 When the high-level control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS, when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS carrying the ACK/NACK, the user equipment uses the conventional structure to send the The PUCCH format 2/2a/2b is described, and the SRS is not transmitted on the subframe.
13、 如权利要求 1所述的方法, 还包括: 当所述高层控制信息指示用户设备允许 PUCCH与 SRS同时发送, 则当 前子帧需要同时发送 PUCCH、 PUSCH和 SRS 时, 所述用户设备按照只有 PUCCH和 PUSCH传输的场景发送 PUCCH和 PUSCH,且在所述子帧的最后 一个符号上不发送 PUSCH, 发送 SRS。 13. The method of claim 1 further comprising: When the high-layer control information indicates that the user equipment allows the PUCCH to be transmitted simultaneously with the SRS, when the current subframe needs to transmit the PUCCH, the PUSCH, and the SRS simultaneously, the user equipment sends the PUCCH and the PUSCH according to the scenario in which only the PUCCH and the PUSCH are transmitted, and The PUSCH is not transmitted on the last symbol of the sub-frame, and the SRS is transmitted.
14、 如权利要求 7至 13任一所述的方法, 其中, 14. The method according to any one of claims 7 to 13, wherein
所述 SRS为周期性 SRS或者非周期性 SRS。 The SRS is a periodic SRS or an aperiodic SRS.
15、 如权利要求 1所述的方法, 还包括: 15. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且 当前子帧需要同时发送只承载信道状态信息的 PUCCH format 2和非周期 SRS 时, 所述用户设备在所述子帧上发送所述非周期 SRS, 且所述子帧上不发送 所述只承载信道状态信息的 PUCCH format 2。 When the high-level control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the aperiodic SRS that only carry the channel state information, the user equipment sends the subframe. The aperiodic SRS, and the PUCCH format 2 that only carries channel state information is not sent on the subframe.
16、 如权利要求 1所述的方法, 还包括: 16. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且 当前子帧需要同时发送承载信道状态信息的 PUCCH format 2和周期 SRS时, 所述用户设备在所述子帧上发送所述承载信道状态信息的 PUCCH format 2, 且所述子帧上不发送所述周期 SRS。 When the high-level control information indicates that the user equipment does not allow the PUCCH to be transmitted simultaneously with the SRS, and the current subframe needs to simultaneously transmit the PUCCH format 2 and the periodic SRS that carry the channel state information, the user equipment sends the The PUCCH format 2 carrying the channel state information, and the periodic SRS is not transmitted on the subframe.
17、 如权利要求 1所述的方法, 还包括: 17. The method of claim 1 further comprising:
当所述高层控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且 当前子帧需要同时发送调度请求( SR )和非周期 SRS时, 所述用户设备在所 述子帧上发送所述 SR, 且所述子帧上不发送所述非周期 SRS。 When the high-level control information indicates that the user equipment does not allow the PUCCH to be sent simultaneously with the SRS, and the current subframe needs to simultaneously send the scheduling request (SR) and the aperiodic SRS, the user equipment sends the SR in the subframe. And the aperiodic SRS is not sent on the subframe.
18、 如权利要求 1至 13、 15至 17任一所述的方法, 其中, 18. The method according to any one of claims 1 to 13, 15 to 17, wherein
所述方法应用于 SRS与 PUCCH在同一个分量载波上发送的场景,或者, 所述方法应用于 SRS与 PUCCH和 PUSCH在同一个分量载波上发送的场景。 The method is applied to a scenario in which the SRS and the PUCCH are sent on the same component carrier, or the method is applied to a scenario in which the SRS is transmitted on the same component carrier as the PUCCH and the PUSCH.
19、 一种基站, 所述基站设置成: 发送高层控制信息给用户设备, 并通 过所述高层控制信息指示用户设备是否允许物理上行控制信道(PUCCH )和 测量参考信号 (SRS ) 同时发送。 A base station, the base station is configured to: send high-level control information to the user equipment, and indicate, by the high-layer control information, whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal (SRS) to be simultaneously transmitted.
20、 如权利要求 19所述的基站, 其中, 所述高层控制信息为新定义的信息; 或者, 为已有高层控制信息。 20. The base station according to claim 19, wherein The high-level control information is newly defined information; or, is, existing high-level control information.
21、 如权利要求 20所述的基站, 其中, 21. The base station according to claim 20, wherein
所述已有高层控制信息为已有的 PUCCH和物理上行共享信道( PUSCH ) 同时传输 ( PUCCH-PUSCH-SimultaneousTransmission ) 的信息, 当所述 PUCCH-PUSCH-SimultaneousTransmission取值为真时, 指示允许用户设备同 时发送 PUCCH与 SRS, 当 PUCCH-PUSCH-SimultaneousTransmission取值为 假时, 指示不允许用户设备同时发送 PUCCH与 SRS。 The existing high-layer control information is information that is transmitted by the existing PUCCH and the physical uplink shared channel (PUSCH) (PUCCH-PUSCH-Simultaneous Transmission), and when the PUCCH-PUSCH-SimultaneousTransmission is true, the user equipment is allowed to be indicated. The PUCCH and the SRS are simultaneously sent. When the value of the PUCCH-PUSCH-SimultaneousTransmission is false, the user equipment is not allowed to simultaneously transmit the PUCCH and the SRS.
22、 如权利要求 19所述的基站, 其中, 所述高层控制信息为用户设备专 有的。 The base station according to claim 19, wherein the high layer control information is specific to the user equipment.
23、 如权利要求 19所述的基站, 其中, 所述基站是设置成通过无线资源 控制信令发送所述高层控制信息至所述用户设备。 The base station according to claim 19, wherein the base station is configured to send the high layer control information to the user equipment by using radio resource control signaling.
24、 如权利要求 19所述的基站, 其中, 所述基站是设置成按照如下方式 通过所述高层控制信息指示用户设备是否允许 PUCCH和 SRS同时发送: 通 过同一高层控制信息指示用户设备是否允许 PUCCH和周期性 SRS同时发送 和是否允许 PUCCH和非周期性 SRS同时发送; 或者, 通过独立的高层控制 信息分别指示用户设备是否允许 PUCCH和周期性 SRS同时发送, 是否允许 PUCCH和非周期性 SRS同时发送。 The base station according to claim 19, wherein the base station is configured to indicate, by using the high layer control information, whether the user equipment allows PUCCH and SRS to be simultaneously transmitted according to the following manner: indicating, by using the same high layer control information, whether the user equipment allows PUCCH Simultaneously transmitting with the periodic SRS and allowing the PUCCH and the aperiodic SRS to be simultaneously transmitted; or respectively, indicating whether the user equipment allows the PUCCH and the periodic SRS to be simultaneously transmitted through independent high-layer control information, whether to allow the PUCCH and the aperiodic SRS to be simultaneously transmitted. .
25、 一种用户设备, 25, a user equipment,
所述用户设备设置成: 接收基站发送的高层控制信息, 根据所述高层控 制信息确定上行信道的发送; 其中, 所述高层控制信息指示用户设备是否允 许物理上行控制信道(PUCCH )和测量参考信号 (SRS ) 同时发送。 The user equipment is configured to: receive high-layer control information sent by the base station, and determine, according to the high-layer control information, the uplink channel, where the high-layer control information indicates whether the user equipment allows the physical uplink control channel (PUCCH) and the measurement reference signal. (SRS) Send at the same time.
26、 如权利要求 25所述的用户设备, 其中, The user equipment according to claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送且 ACK/NACK和 SRS 同时传输( AckNackSRS-SimultaneousTransmission )为真时, 若在当前子帧需 要同时发送 PUCCH format l/la/lb/3和 SRS, 则釆用截短结构发送 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送 SRS。 The user equipment is configured to determine transmission of an uplink channel by: when the high layer control information indicates that the user equipment allows PUCCH to be simultaneously transmitted with the SRS and the ACK/NACK and SRS simultaneous transmission (AckNackSRS-SimultaneousTransmission) is true, if If the current subframe needs to transmit PUCCH format l/la/lb/3 and SRS simultaneously, then the PUCCH format l/la/lb/3 is transmitted with the truncation structure, and the SRS is transmitted on the last symbol of the subframe.
27、 如权利要求 25所述的用户设备, 其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用 户 设备允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission为假时, 若在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS, 则釆用常规结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 27. The user equipment according to claim 25, wherein The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, if the current subframe needs to simultaneously send the PUCCH format l/la/lb/3 and SRS, then the PUCCH format l/la/lb/3 is transmitted using a conventional structure while the SRS is transmitted on the last symbol of the subframe.
28、 如权利要求 25所述的用户设备, 其中, 28. The user equipment of claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送, 且在当前子帧需要同 时发送 PUCCH format 2/2a/2b和 SRS时, 则釆用常规结构发送所述 PUCCH format 2/2a/2b, 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, and when the current subframe needs to simultaneously transmit the PUCCH format 2/2a/2b and the SRS Then, the PUCCH format 2/2a/2b is transmitted by a conventional structure while the SRS is transmitted on the last symbol of the subframe.
29、 如权利要求 25所述的用户设备, 其中, 29. The user equipment of claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission 为真时, 若当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS时, 则釆用截短结构发送所述 PUCCH format l/la/lb/3 , 同时在所述子帧的最后一个符号上发送所述 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is true, if the current subframe needs to simultaneously send the PUCCH format For l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted with a truncation structure, and the SRS is transmitted on the last symbol of the subframe.
30、 如权利要求 25所述的用户设备, 其中, 30. The user equipment according to claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH 与 SRS 同 时发送, 且 AckNackSRS-SimultaneousTransmission为假时, 若在当前子帧需要同时发送 PUCCH format l/la/lb/3和 SRS, 则釆用常规结构发送所述 PUCCH format l/la/lb/3 , 且所述子帧上不发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to transmit simultaneously with the SRS, and the AckNackSRS-SimultaneousTransmission is false, if the PUCCH needs to be simultaneously sent in the current subframe Format l/la/lb/3 and SRS, the PUCCH format l/la/lb/3 is transmitted in a conventional structure, and the SRS is not transmitted on the subframe.
31、 如权利要求 25所述的用户设备, 其中, The user equipment according to claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且在当前子帧需要 同时发送承载 ACK/NACK的 PUCCH format 2/2a/2b和 SRS时, 釆用常规结 构发送所述 PUCCH format 2/2a/2b, 且所述子帧上不发送 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the PUCCH format 2/ carrying the ACK/NACK is required to be simultaneously transmitted in the current subframe. In the case of 2a/2b and SRS, the PUCCH format 2/2a/2b is transmitted using a conventional structure, and the SRS is not transmitted on the subframe.
32、 如权利要求 25所述的用户设备, 其中, 所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备允许 PUCCH与 SRS同时发送, 且在当前子帧需要同 时发送 PUCCH、 PUSCH和 SRS时, 按照只有 PUCCH和 PUSCH传输的场 景发送 PUCCH和 PUSCH, 且在所述子帧的最后一个符号上不发送 PUSCH, 发送 SRS。 32. The user equipment according to claim 25, wherein The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment allows the PUCCH to be simultaneously transmitted with the SRS, and when the current subframe needs to simultaneously transmit the PUCCH, the PUSCH, and the SRS, according to only the PUCCH The PUCCH and the PUSCH are transmitted in the scenario of the PUSCH transmission, and the PUSCH is not transmitted on the last symbol of the subframe, and the SRS is transmitted.
33、 如权利要求 25至 32任一所述的用户设备, 其中, 33. The user equipment according to any one of claims 25 to 32, wherein
所述 SRS为周期性 SRS或者非周期性 SRS。 The SRS is a periodic SRS or an aperiodic SRS.
34、 如权利要求 25所述的用户设备, 其中, 34. The user equipment of claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且在当前子帧需要 同时发送只承载信道状态信息的 PUCCH format 2和非周期 SRS时,在所述子 帧上发送所述非周期 SRS, 且所述子帧上不发送所述只承载信道状态信息的 PUCCH format 2„ The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the PUCCH format 2 that only carries the channel state information needs to be simultaneously transmitted in the current subframe. And the aperiodic SRS, the aperiodic SRS is sent on the subframe, and the PUCCH format that only carries the channel state information is not sent on the subframe.
35、 如权利要求 25所述的用户设备, 其中, 35. The user equipment of claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且在当前子帧需要 同时发送承载信道状态信息的 PUCCH format 2和周期 SRS时,在所述子帧上 发送所述承载信道状态信息的 PUCCH format 2, 且所述子帧上不发送所述周 期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the PUCCH format 2 that carries the channel state information needs to be simultaneously transmitted in the current subframe. During periodic SRS, the PUCCH format 2 carrying the channel state information is transmitted on the subframe, and the periodic SRS is not transmitted on the subframe.
36、 如权利要求 25所述的用户设备, 其中, 36. The user equipment of claim 25, wherein
所述用户设备是设置成通过如下方式确定上行信道的发送: 当所述高层 控制信息指示用户设备不允许 PUCCH与 SRS同时发送, 且在当前子帧需要 同时发送调度请求(SR )和非周期 SRS时, 在所述子帧上发送所述 SR, 且 所述子帧上不发送所述非周期 SRS。 The user equipment is configured to determine the transmission of the uplink channel by: when the high layer control information indicates that the user equipment does not allow the PUCCH to be simultaneously transmitted with the SRS, and the scheduling request (SR) and the aperiodic SRS are simultaneously sent in the current subframe. The SR is sent on the subframe, and the aperiodic SRS is not sent on the subframe.
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