CN110299976A - A kind of information transferring method, method of reseptance, terminal and the network equipment - Google Patents
A kind of information transferring method, method of reseptance, terminal and the network equipment Download PDFInfo
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- CN110299976A CN110299976A CN201810235624.XA CN201810235624A CN110299976A CN 110299976 A CN110299976 A CN 110299976A CN 201810235624 A CN201810235624 A CN 201810235624A CN 110299976 A CN110299976 A CN 110299976A
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- pusch
- pucch
- transmission
- time slot
- target
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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
-
- 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
Abstract
The present invention provides a kind of information transferring method, method of reseptance, terminal and the network equipments, are related to field of communication technology.The information transferring method, it include: when the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash, in the time slot clashed, ascending control information in target PUCCH is multiplexed and is transmitted on PUSCH, or abandons the ascending control information in PUSCH transmission objectives PUCCH.Above scheme, by in multi-slot PUCCH and PUSCH conflict, it is transmitted on PUSCH using being multiplexed the ascending control information in multi-slot PUCCH, or it abandons PUSCH and only transmits the ascending control information in multi-slot PUCCH, with this perfect communication process, the PUCCH for avoiding multi-slot occupies different RE resource numbers in different time-gap and is transmitted, and ensure that control information and data can be transmitted correctly in NR system, be optimal the performance of NR system.
Description
Technical field
The present invention relates to field of communication technology, in particular to a kind of information transferring method, method of reseptance, terminal and network are set
It is standby.
Background technique
At present in NR (New Radio, newly eat dishes without rice or wine) communication system, ascending control information HARQ-ACK (Hybrid is supported
Automatic Repeat request Acknowledgement, mixed automatic retransfer response message) and CSI (Channel
State Information, channel state information) PUSCH (Physical Uplink Shared Channel, physically
The shared channel of row) on and data carry out multiplexing transmission.
PUCCH (Physical Uplink Control Channel, the physical uplink control of multi-slot are supported in NR at present
Channel processed) and multi-slot PUSCH transmission, when the PUCCH of single time slot and PUSCH conflict, current conclusion be if
Conflicting in time slot, the primary sign of PUCCH and PUSCH is identical, then ascending control information multiplexing transmitted in PUSCH,
Do not transmit PUCCH.Support that PUCCH's and PUSCH is more in 5G (5th-Generation, the 5th third-generation mobile communication technology) at present
Time slot repeats to transmit, but does not support to transmit while PUCCH and PUSCH.PUCCH and PUSCH conflict for multi-slot
The case where, there is presently no the schemes that definition solves.
Summary of the invention
The embodiment of the present invention provides a kind of information transferring method, method of reseptance, terminal and the network equipment, to solve because existing
When not being defined on multi-slot PUCCH and PUSCH conflict in technology, the transmission of PUCCH and PUSCH how are carried out, causes to communicate
The problem of process is imperfect, not can guarantee communication reliability.
In order to solve the above-mentioned technical problem, the embodiment of the present invention provides a kind of information transferring method, is applied to terminal, packet
It includes:
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
Ascending control information in target PUCCH is multiplexed and transmits on PUSCH by the time slot clashed, or abandons PUSCH
Ascending control information in transmission objectives PUCCH.
Specifically, described in the time slot clashed, the ascending control information in target PUCCH is multiplexed on PUSCH
It is transmitted, or the step of abandoning the ascending control information in PUSCH transmission objectives PUCCH, comprising:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, for the target PUCCH, can be used for according in first transmission time slot of the target PUCCH
The resource particle resource of row control information transmission determines the encoder bit rate of ascending control information, in the repetition of the target PUCCH
In time slot, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched transmission upload control letter
Breath.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The embodiment of the present invention also provides a kind of message receiving method, is applied to the network equipment, comprising:
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
The time slot clashed receives the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH, or receives terminal
Abandon the ascending control information in the target PUCCH of PUSCH transmission.
Specifically, the ascending control information received in the target PUCCH that terminal is multiplexed on PUSCH, or receive
Terminal abandons the step of ascending control information in the target PUCCH of PUSCH transmission, comprising:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The embodiment of the present invention also provides a kind of terminal, including memory, processor and is stored on the memory and can
The computer program run on the processor;The processor performs the steps of when executing the computer program
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
Ascending control information in target PUCCH is multiplexed and transmits on PUSCH by the time slot clashed, or abandons PUSCH
Ascending control information in transmission objectives PUCCH.
Specifically, it is performed the steps of when the processor executes the computer program
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, for the target PUCCH, can be used for according in first transmission time slot of the target PUCCH
The resource particle resource of row control information transmission determines the encoder bit rate of ascending control information, in the repetition of the target PUCCH
In time slot, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched transmission upload control letter
Breath.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, wherein institute
State the step of above-mentioned information transferring method is realized when computer program is executed by processor.
The embodiment of the present invention also provides a kind of terminal, comprising:
Transmission module, for working as the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH
When clashing, in the time slot clashed, the ascending control information in target PUCCH is multiplexed and is transmitted on PUSCH,
Or the ascending control information in PUSCH transmission objectives PUCCH of discarding.
Specifically, the transmission module is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, for the target PUCCH, can be used for according in first transmission time slot of the target PUCCH
The resource particle resource of row control information transmission determines the encoder bit rate of ascending control information, in the repetition of the target PUCCH
In time slot, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched transmission upload control letter
Breath.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The embodiment of the present invention also provides a kind of network equipment, including memory, processor and is stored on the memory
And the computer program that can be run on the processor;Wherein, realized when the processor executes the computer program with
Lower step:
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
The time slot clashed receives the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH, or receives terminal
Abandon the ascending control information in the target PUCCH of PUSCH transmission.
Specifically, it is performed the steps of when the processor executes the computer program
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, wherein institute
State the step of above-mentioned message receiving method is realized when computer program is executed by processor.
The embodiment of the present invention also provides a kind of network equipment, comprising:
Receiving module, for working as the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH
When clashing, in the time slot clashed, the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH is received,
Or reception terminal abandons the ascending control information in the target PUCCH of PUSCH transmission.
Specifically, the receiving module is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The beneficial effects of the present invention are:
Above scheme, by when multi-slot PUCCH and PUSCH conflict, using by the upload control in multi-slot PUCCH
Information multiplexing is transmitted on PUSCH, or is abandoned PUSCH and only transmitted the ascending control information in multi-slot PUCCH, with this
Perfect communication process, the PUCCH for avoiding multi-slot occupy different RE resource numbers in different time-gap and are transmitted, and protect
Having demonstrate,proved control information and data in NR system can correctly transmit, and be optimal the performance of NR system.
Detailed description of the invention
Fig. 1 shows the flow diagrams of the information transferring method of the embodiment of the present invention;
The slot transmission schematic diagram of Fig. 2 expression situation A-1;
The slot transmission schematic diagram of Fig. 3 expression situation A-2;
The slot transmission schematic diagram of Fig. 4 expression situation B;
The slot transmission schematic diagram of Fig. 5 expression situation C;
The slot transmission schematic diagram of Fig. 6 expression situation D-1;
The slot transmission schematic diagram of Fig. 7 expression situation D-2;
Fig. 8 shows the slot transmission schematic diagrames of situation E-1;
The slot transmission schematic diagram of Fig. 9 expression situation E-2;
The slot transmission schematic diagram of Figure 10 expression situation F-1;
The slot transmission schematic diagram of Figure 11 expression situation F-2;
The slot transmission schematic diagram of Figure 12 expression situation G;
The slot transmission schematic diagram of Figure 13 expression situation H;
The slot transmission schematic diagram of Figure 14 expression situation I-1;
The slot transmission schematic diagram of Figure 15 expression situation I-2;
The slot transmission schematic diagram of Figure 16 expression situation J;
The slot transmission schematic diagram of Figure 17 expression situation K-1;
The slot transmission schematic diagram of Figure 18 expression situation K-2;
The slot transmission schematic diagram of Figure 19 expression situation M-1;
The slot transmission schematic diagram of Figure 20 expression situation M-2;
Figure 21 indicates the flow diagram of the message receiving method of the embodiment of the present invention;
Figure 22 indicates the module diagram of the terminal of the embodiment of the present invention;
Figure 23 indicates the structure chart of the terminal of the embodiment of the present invention;
Figure 24 indicates the module diagram of the network equipment of the embodiment of the present invention;
Figure 25 indicates the structure chart of the network equipment of the embodiment of the present invention.
Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, right below in conjunction with the accompanying drawings and the specific embodiments
The present invention is described in detail.
The some concepts being previously mentioned in the embodiment of the present invention are described as follows first.
When ascending control information carries out multiplexing transmission on PUSCH, specific mapping ruler has been defined, such as:
HARQ-ACK after first DMRS (Demodulation Reference Signal, demodulated reference signal) symbol according to
Time domain mode sequence is mapped after first frequency domain;CSI part 1 and CSI part 2 is from first available RE (Resource
Element, resource particle) resource starts to be mapped according to time domain mode after first frequency domain;If UCI (Uplink Control
Information, ascending control information) occupy RE resource do not extend around an entire OFDM (Orthogonal Frequency
Division Multiplexing, orthogonal frequency division multiplexing) symbol or UCI occupy the more than one symbol of RE resource still
The RE resource in all PUSCH bandwidth cannot be occupied in last symbol, then average discrete maps on frequency domain, for example,
When the resource of UCI does not extend around a symbol, frequency domain interval is the available unmapped UCI symbol of RE number/residue on symbol
Number is simultaneously rounded downwards.If the bit number of HARQ-ACK retains a part of resource when being 0 or 1 or 2, CSI part 1 will not reflect
It penetrates in the RE resource of reservation, primarily to HARQ-ACK is avoided to punch CSI part 1.
When the present invention for multi-slot PUCCH and PUSCH conflict is not defined in the prior art, how PUCCH is carried out
With the transmission of PUSCH, the problem of causing communication process imperfect, not can guarantee communication reliability, a kind of information transmission side is provided
Method, method of reseptance, terminal and the network equipment.
As shown in Figure 1, the information transferring method of one embodiment of the invention, is applied to terminal, comprising:
Step 11, when the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH are rushed
When prominent, in the time slot clashed, the ascending control information in target PUCCH be multiplexed and is transmitted on PUSCH, or lost
Abandon the ascending control information in PUSCH transmission objectives PUCCH.
It should be noted that the target PUCCH and PUSCH is in one time slot, at least there is one in the time domain
The overlapping of OFDM symbol, the referred to as conflict of target PUCCH and PUSCH, i.e. target PUCCH and PUSCH transmission are conflicted.It is right
In do not support PUCCH and PUSCH simultaneous transmission the case where and network equipments configuration is without using PUCCH and PUSCH simultaneous transmission
The case where, require consideration for how the collision problem for solving target PUCCH and PUSCH described in the embodiment of the present invention.
It should be noted that target PUCCH described in the embodiment of the present invention belongs to multi-slot PUCCH, and it is described more when
Gap PUCCH occupies at least two time slots and is transmitted.
In the embodiment of the present invention, when the transmission of multi-slot PUCCH and PUSCH clash, conflict occur time slot,
PUSCH is transmitted or abandoned to ascending control information multiplexing in multi-slot PUCCH on PUSCH and only transmits mesh
The ascending control information in PUCCH is marked, ensure that with this when conflicting generation, the normal transmission of ascending control information, Bu Huiyin
The transmission of multi-slot PUCCH and PUSCH clash, and the case where cause network communication to interrupt.
Specifically, in the embodiment of the present invention step 11 implementation are as follows:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
In the specific implementation of step 11, transmission collision is compared with default conflict condition, if transmission collision
Meet default conflict condition, then in the time slot clashed, exists using by the ascending control information multiplexing in target PUCCH
The mode transmitted on PUSCH, if transmission collision does not meet default conflict condition, using PUSCH transmission objectives of discarding
The mode of ascending control information in PUCCH.
Specifically, two kinds of default conflict conditions are set in the embodiment of the present invention, separately below to every kind of default conflict condition
It is specifically described.
The first, default conflict condition include whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
It should be noted that 4 conditions in this kind of situation must be all satisfied just and can determine that transmission collision meets default punching
Ridge part also determines that transmission collision does not meet default conflict condition if there is a condition to be unsatisfactory for.
For example, when multi-slot PUCCH and list time slot PUSCH conflict, because not meeting above-mentioned default conflict condition, then network
Equipment abandons PUSCH and only transmits the ascending control information in multi-slot PUCCH when being transmitted.
For example, when multi-slot PUCCH and multi-slot PUSCH transmission conflict, if the initial position of multi-slot PUCCH when
Between on be equal to or be later than the initial position of multi-slot PUSCH and the end position of multi-slot PUCCH be equal in time or
It is passed in each occupied time slot with PUSCH earlier than the end position of multi-slot PUSCH, and in multi-slot PUCCH
It is defeated conflict and primary sign it is identical, because meeting above-mentioned default conflict condition, then the network equipment is when being transmitted, by multi-slot
Ascending control information multiplexing in PUCCH is transmitted on PUSCH, does not transmit multi-slot PUCCH.
It should be noted that when presetting the control of conflict condition progress information transmission using the first, when can guarantee more
Gap PUCCH transmission is in the time slot that each is occupied, and the occupied RE resource number of ascending control information is identical, therefore in base station
Directly the multiple information that receives can be merged when receiving decoding, realized relatively simple.
Second, conflict condition is preset are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the target
The transmission primary sign of PUCCH and PUSCH is identical.
It should be noted that under such default conflict condition, with the multi-slot PUCCH PUSCH clashed occupy to
A few time slot is transmitted, i.e., the PUSCH clashed with multi-slot PUCCH both can be that (PUSCH is accounted for single time slot PUSCH
Transmitted with a time slot), or (PUSCH occupies at least two time slots and is transmitted multi-slot PUSCH, i.e. PUSCH
It carries out repeating transmission).
For example, multi-slot PUCCH and list time slot PUSCH (or multi-slot PUSCH) conflicts, in the time slot of conflict, if
The primary sign of multi-slot PUCCH and PUSCH is identical, then the network equipment is when being transmitted, by the uplink in multi-slot PUCCH
Control information multiplexing is transmitted on PUSCH, does not transmit multi-slot PUCCH;Otherwise the network equipment is abandoned when being transmitted
Ascending control information in PUSCH transmission objectives PUCCH.
It should be noted that discarding can be reduced when carrying out the control of information transmission using second of default conflict condition
The case where PUSCH transmission, the disadvantage is that the ascending control information that receives of the network equipment occupied RE resource in different time-gap
Number is different, needs to merge the reception information of multiple and different code lengths in decoding, realize complex.
Specifically, in this case, for the target PUCCH, when according to first of target PUCCH transmission
The resource particle resource that can be used for uplink control information transmission in gap determines the encoder bit rate of ascending control information, in the target
In the repetition time slot of PUCCH, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched transmission
Ascending control information.
It should be noted that can be used for uplink control information transmission in first transmission time slot according to target PUCCH
Resource particle resource determine the encoder bit rate of ascending control information after, number of coded bits is determined according to the encoder bit rate, then
According to the number of coded bits, (rate-matched herein is than extra heavy to progress rate-matched in the repetition time slot of target PUCCH
What the mode of multiple or bit punching was realized) to realize the transmission of ascending control information.
The embodiment of the present invention is illustrated so that terminal realizes uplink control information transmission as an example, it should be noted that
The network equipment is when carrying out ascending control information reception, and is received in the same way, i.e., how terminal sends, net
How network equipment is with regard to receiving, i.e., default conflict condition used by terminal and the network equipment is identical, i.e., terminal is according to upper
When the default conflict condition of the first stated carries out the transmission control of ascending control information, the network equipment equally also knows that terminal is adopted
The mode of default conflict condition carries out ascending control information in the way of default conflict condition identical with terminal
It receives.
Separately below with different application scenarios, the specific implementation of the embodiment of the present invention is described as follows.
One, assume that base station is configured with the number of repetition of multi-slot PUCCH by wireless heterogeneous networks (RRC) signaling to terminal
It is 4, and base station does not carry out the configuration of semi-static uplink and downlink distribution or according to configuration information, in the duplicate time slot of PUCCH
There are enough uplink symbols for PUCCH, then multi-slot PUCCH carries out repeating biography into time slot n+6 in continuous time slot n+3
It is defeated, and transmitted from first sign-on in time slot, below for rushing for different multi-slot PUCCH and PUSCH
Prominent situation is illustrated respectively.
Situation A-1, as illustrated in fig. 2, it is assumed that base station scheduled PUSCH transmission in time slot n+3, in this case, use
The first default conflict condition carries out the transmission control of ascending control information, then abandons PUSCH transmission;Terminal time slot n+3 extremely
PUCCH is only transmitted in time slot n+6.It can guarantee that ascending control information is shared into time slot n+6 in time slot n+3 in this case
RE resource number is identical, can directly merge, realize simple to the multiple information that receives when base station receives decoding.
It should be noted that in Fig. 2 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate the PUSCH for not transmitting the time slot.
Situation A-2: as shown in Figure 3, it is assumed that base station scheduled PUSCH transmission, and the PUSCH in time slot n+3 in time slot n+3
It is transmitted from first sign-on, in this case, the biography of ascending control information is carried out using second of default conflict condition
Defeated control, then ascending control information multiplexing is transmitted on PUSCH in time slot n+3, does not transmit PUCCH;Terminal time slot n+4 extremely
PUCCH is only transmitted in time slot n+6.The case where can be avoided PUSCH transmission in discarding time slot n+3 in this case, but base
Stand reception decoding when need that the reception information of different coding length merges into time slot n+6 to time slot n+3, realize more multiple
It is miscellaneous.
Further, when the ascending control information transmitted in PUCCH encodes, it is thus necessary to determine that its corresponding coding code
Rate.PUCCH transmission for multi-slot, in order to guarantee can correctly to carry out HARQ merging when receiving, when needing to guarantee different
The coding of ascending control information uses identical encoder bit rate in gap.In view of we to multi-slot PUCCH can not look-ahead
Whether each subsequent time slot can clash with PUSCH, it is therefore desirable to first transmission time slot based on multi-slot PUCCH
Determine its encoder bit rate.For example, then needing basis since ascending control information multiplexing is transmitted on PUSCH in time slot n+3
The information bit transmitted on PUSCH determines the RE resource number that UCI transmission occupies, it is assumed that UCI is HARQ-ACK information, is corresponded to
Bit number be A, on PUSCH occupy B RE resource number, then the code rate of HARQ-ACK be A/ (B*m), wherein m be modulate
Order obtains B*m coded-bit after coding.It is repeated in time slot n+4, n+5 and n+6 subsequent, no matter actual transmission provides
RE, source number is how many, can carry out repeating to B*m coded-bit or punch to obtain corresponding coded-bit number.It is false
If RE number of actual transfer resource is C, if (C*m) > (b*m), B*m coded-bit is repeated to obtain C*m
Coded-bit is lost extra coded-bit finally if (C*m) < (b*m), punches B*m coded-bit
Obtain C*m coded-bit.
It should be noted that in Fig. 3 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUCCH on the time slot.
Situation B: it is assumed that base station scheduled the repetition transmission of multi-slot PUSCH in time slot n+3 to time slot n+6
And PUSCH transmission and the downstream transmission direction that is semi-statically configured of base station do not conflict, and multi-slot PUSCH is from time slot
First sign-on is transmitted, then ascending control information is multiplexed on PUSCH in time slot n+3 into time slot n+6 by terminal
Transmission, does not transmit PUCCH;It should be noted that in this case, presetting conflict condition using the first or second default
The transmission control that conflict condition carries out ascending control information can reach same laser propagation effect, i.e., regardless of PUCCH and PUSCH
Transmission occupies how many a symbols in one time slot, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot,
Ascending control information can be multiplexed and be transmitted on PUSCH.
It should be noted that in Fig. 4 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUCCH on the time slot.
Situation C: as shown in fig. 5, it is assumed that base station scheduled the repetition transmission of multi-slot PUSCH in time slot n+3 to time slot n+6
And PUSCH transmission and the downstream transmission direction that is semi-statically configured of base station do not conflict, and multi-slot PUSCH is from time slot
Third sign-on is transmitted, then terminal abandons PUSCH into time slot n+6 in time slot n+3, only transmits PUCCH;It needs
It is bright, in this case, conflict condition is preset using the first or second of default conflict condition carries out upload control letter
The transmission control of breath can reach same laser propagation effect.
It should be noted that in Fig. 5 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation D-1: as shown in Figure 6, it is assumed that base station scheduled single PUSCH transmission into time slot n+6 in time slot n+3, and
Each PUSCH is transmitted from first sign-on in time slot, in this case, using the first default conflict item
Part carries out the transmission control of ascending control information, then terminal abandons PUSCH into time slot n+6 in time slot n+3, only transmits PUCCH.
It should be noted that in Fig. 6 oblique line filling frame indicate be PUCCH transmission, vertical line fill frame, positive cross hand over
What fork grid filling frame, Saint Andrew's cross intersection grid filling frame and horizontal line filling frame indicated is the transmission of PUSCH, and cross wires indicates not
Transmit the PUSCH on the time slot.
Situation D-2: as shown in Figure 7, it is assumed that base station scheduled single PUSCH transmission into time slot n+6 in time slot n+3, and
Each PUSCH is transmitted from first sign-on in time slot, in this case, using second of default conflict item
Part carries out the transmission control of ascending control information, then ascending control information is multiplexed in time slot n+3 into time slot n+6 by terminal
It is transmitted on PUSCH, does not transmit PUCCH;It should be noted that in this case, no matter PUCCH and PUSCH transmission are at one
How many a symbols are occupied in time slot, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may will be upper
Row control information multiplexing is transmitted on PUSCH.
It should be noted that in Fig. 7 oblique line filling frame indicate be PUCCH transmission, vertical line fill frame, positive cross hand over
What fork grid filling frame, Saint Andrew's cross intersection grid filling frame and horizontal line filling frame indicated is the transmission of PUSCH, and cross wires indicates not
Transmit the PUCCH on the time slot.
Situation E-1: as shown in Figure 8, it is assumed that base station scheduled the repetition of multi-slot PUSCH in time slot n+5 into time slot n+8
The downstream transmission direction that transmission and the transmission of PUSCH and base station are semi-statically configured does not conflict, and multi-slot PUSCH is from time slot
In first sign-on transmitted, in this case, using the first preset conflict condition carry out upload control letter
The transmission of breath controls, then terminal abandons PUSCH in time slot n+5 and time slot n+6, only transmits PUCCH.
It should be noted that in Fig. 8 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation E-2: as shown in Figure 9, it is assumed that base station scheduled the repetition of multi-slot PUSCH in time slot n+5 into time slot n+8
The downstream transmission direction that transmission and the transmission of PUSCH and base station are semi-statically configured does not conflict, and multi-slot PUSCH is from time slot
In first sign-on transmitted, in this case, upload control letter is carried out using second of default conflict condition
The transmission of breath controls, then terminal transmits ascending control information multiplexing in time slot n+5 and time slot n+6 on PUSCH, does not transmit
PUCCH;It should be noted that in this case, regardless of PUCCH and PUSCH transmission occupy how many symbols in one time slot
Number, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may which ascending control information multiplexing exists
It is transmitted on PUSCH.
It should be noted that in Fig. 9 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUCCH on the time slot.
Situation F-1: as shown in Figure 10, it is assumed that base station scheduled the repetition of multi-slot PUSCH in time slot n+5 and time slot n+6
The downstream transmission direction that transmission and the transmission of PUSCH and base station are semi-statically configured does not conflict, and multi-slot PUSCH is from time slot
In first sign-on transmitted, in this case, using the first preset conflict condition carry out upload control letter
The transmission of breath controls, then terminal abandons PUSCH in time slot n+5 and time slot n+6, only transmits PUCCH.
It should be noted that in Figure 10 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation F-2: as shown in figure 11, it is assumed that base station scheduled the repetition of multi-slot PUSCH in time slot n+5 and time slot n+6
The downstream transmission direction that transmission and the transmission of PUSCH and base station are semi-statically configured does not conflict, and multi-slot PUSCH is from time slot
In first sign-on transmitted, in this case, upload control letter is carried out using second of default conflict condition
The transmission of breath controls, then terminal transmits ascending control information multiplexing in time slot n+5 and time slot n+6 on PUSCH, does not transmit
PUCCH;It should be noted that in this case, regardless of PUCCH and PUSCH transmission occupy how many symbols in one time slot
Number, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may which ascending control information multiplexing exists
It is transmitted on PUSCH.
It should be noted that in Figure 11 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUCCH on the time slot.
Situation G: as shown in figure 12, it is assumed that base station is passed in the repetition that time slot n+4 and time slot n+5 scheduled multi-slot PUSCH
The downstream transmission direction that defeated and PUSCH transmission and base station are semi-statically configured does not conflict, and multi-slot PUSCH is from time slot
Third sign-on transmitted, then terminal abandons PUSCH in time slot n+4 and time slot n+5, only transmits PUCCH;It needs
Illustrate, in this case, conflict condition is preset using the first or second of default conflict condition carries out upload control
The transmission control of information can reach same laser propagation effect.
It should be noted that in Figure 12 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation H: as shown in figure 13, it is assumed that base station scheduled single PUSCH transmission into time slot n+6 in time slot n+3, and every
A PUSCH is transmitted from the 4th sign-on in time slot, then terminal is abandoned in time slot n+3 into time slot n+6
PUSCH only transmits PUCCH;It should be noted that in this case, presetting conflict condition using the first or second pre-
If the transmission control that conflict condition carries out ascending control information can reach same laser propagation effect.
It should be noted that in Figure 13 oblique line filling frame indicate be PUCCH transmission, vertical line fill frame, positive cross
What intersection grid filling frame, Saint Andrew's cross intersection grid filling frame and horizontal line filling frame indicated is the transmission of PUSCH, cross wires expression
The PUSCH on the time slot is not transmitted.
Situation I-1: as shown in figure 14, it is assumed that base station scheduled single PUSCH transmission into time slot n+6 in time slot n+3, and
PUSCH in time slot n+3 and time slot n+4 is transmitted from first sign-on in time slot, in time slot n+5 and time slot n+
PUSCH in 6 is transmitted from the 4th sign-on in time slot, in this case, using the first default conflict item
Part carries out the transmission control of ascending control information, then terminal abandons PUSCH into time slot n+6 in time slot n+3, only transmits PUCCH;
It should be noted that in Figure 14 oblique line filling frame indicate be PUCCH transmission, vertical line fill frame, positive cross
What intersection grid filling frame, Saint Andrew's cross intersection grid filling frame and horizontal line filling frame indicated is the transmission of PUSCH, cross wires expression
The PUSCH on the time slot is not transmitted.
Situation I-2: as shown in figure 15, it is assumed that base station scheduled single PUSCH transmission into time slot n+6 in time slot n+3, and
PUSCH in time slot n+3 and time slot n+4 is transmitted from first sign-on in time slot, in time slot n+5 and time slot n+
PUSCH in 6 is transmitted from the 4th sign-on in time slot, in this case, using second of default conflict item
Part carries out the transmission control of ascending control information, then ascending control information is multiplexed by terminal in time slot n+3 and time slot n+4
It is transmitted on PUSCH, does not transmit PUCCH;It should be noted that in this case, no matter PUCCH and PUSCH transmission are at one
How many a symbols are occupied in time slot, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may will be upper
Row control information multiplexing is transmitted on PUSCH.Terminal abandons PUSCH in time slot n+5 and time slot n+6, only transmits
PUCCH。
It should be noted that in Figure 15 oblique line filling frame indicate be PUCCH transmission, vertical line fill frame, positive cross
What intersection grid filling frame, Saint Andrew's cross intersection grid filling frame and horizontal line filling frame indicated is the transmission of PUSCH, and cross wires is distinguished
It indicates not transmitting the PUCCH or PUSCH on the time slot.
Two, assuming that base station is configured with the number of repetition of multi-slot PUCCH to terminal by RRC signaling is 4, and according to base station
The distribution of semi-static uplink and downlink configuration information, there is no enough uplink/unknown symbols available into time slot n+6 in time slot n+4
In PUCCH, then multi-slot PUCCH can be transmitted in time slot n+2, time slot n+3, time slot n+7 and time slot n+8, and from
First sign-on in time slot is transmitted, and is distinguished below for the conflict situations of different multi-slot PUCCH and PUSCH
It is illustrated.
Situation J: as shown in figure 16, it is assumed that base station scheduled multi-slot PUSCH transmission in time slot n+2 to time slot n+9, and
It is transmitted from first sign-on in time slot, and transmission and the downstream transmission side that is semi-statically configured of base station of PUSCH
To not conflicting, then ascending control information is multiplexed in PUSCH by terminal in time slot n+2, time slot n+3, time slot n+7 and time slot n+8
Upper transmission, does not transmit PUCCH;Further, since there is no enough uplink/unknown symbols can be used for into time slot n+6 in time slot n+4
PUCCH also can be used for transmitting PUSCH without enough uplink symbols, therefore if the time domain length of PUSCH is greater than PUCCH
It can not also be transmitted in PUSCH of the time slot n+4 into time slot n+6.It should be noted that in this case, regardless of PUCCH and
PUSCH transmission occupies how many a symbols in one time slot, as long as PUCCH and PUSCH transmission primary sign in one time slot
It is identical, so that it may to transmit ascending control information multiplexing on PUSCH.It should be noted that in this case, using
The transmission control that the first default conflict condition or second of default conflict condition carry out ascending control information can reach same
The laser propagation effect of sample.
It should be noted that in Figure 16 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires respectively indicate the PUCCH or PUSCH not transmitted on the time slot.
Situation K-1: as shown in figure 17, it is assumed that base station scheduled multi-slot PUSCH transmission in time slot n+2 to time slot n+5, and
It is transmitted from first sign-on in time slot, in this case, conflict condition is preset using the first and is carried out
The transmission control of row control information, then terminal abandons PUSCH transmission in time slot n+2, time slot n+3, only transmits PUCCH.
It should be noted that in Figure 17 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation K-2: as shown in figure 18, it is assumed that base station scheduled multi-slot PUSCH transmission in time slot n+2 to time slot n+5, and
It is transmitted from first sign-on in time slot, in this case, is carried out using second of default conflict condition
The transmission control of row control information, then ascending control information is multiplexed in time slot n+2 and time slot n+3 and uploads in PUSCH by terminal
It is defeated, do not transmit PUCCH;It should be noted that in this case, regardless of PUCCH and PUSCH transmission occupy in one time slot
How many a symbols, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may by ascending control information
Multiplexing is transmitted on PUSCH.
It should be noted that in Figure 18 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUCCH on the time slot.
Three, assuming that base station is configured with the number of repetition of multi-slot PUCCH to terminal by RRC signaling is 4, in each time slot
To the 7th symbol, base station does not carry out the configuration of semi-static uplink and downlink distribution or according to configuration information middle occupancy third,
Have enough uplink symbols in the duplicate time slot of PUCCH for PUCCH, then multi-slot PUCCH continuous time slot n+2 to when
It carries out repeating transmission in gap n+5, carries out illustrating respectively below for the conflict situations of different multi-slot PUCCH and PUSCH
It is bright:
Situation M-1: as shown in figure 19, it is assumed that base station scheduled multi-slot PUSCH transmission in time slot n+2 to time slot n+5, and
It is transmitted from the third sign-on in time slot, 10 symbols occupied in a time slot are transmitted, in time slot n+2
In time slot n+3, it is assumed that time slot configuration 34 is used, as shown in table 1 below:
34 | D | X | U | U | U | U | U | U | U | U | U | U | U | U |
The specific time slot configuration situation table of the configuration of table 1 34
I.e. in one time slot, first is downlink transfer symbol, and second is unknown symbols, remaining is uplink symbol
Number.In this case, the transmission control that conflict condition carries out ascending control information is preset using the first, then in time slot n+2
In time slot n+3, terminal can transmit PUCCH or PUSCH.
In time slot n+4 and time slot n+5, it is assumed that time slot configuration 48 is used, as shown in table 2 below:
48 | D | X | U | U | U | U | U | D | X | U | U | U | U | U |
The specific time slot configuration situation table of the configuration of table 2 48
I.e. in one time slot, first and the 7th symbol are downlink transfer symbol, and second and the 8th is unknown
Symbol, remaining is uplink symbol.Then in time slot n+4 and time slot n+5, terminal can transmit PUCCH but can not transmit
Ascending control information in multi-slot PUCCH still can not be multiplexed and pass in PUSCH in this case by PUSCH
It is defeated, in this case, the transmission control that conflict condition carries out ascending control information is preset using the first, terminal is in time slot n+
2 abandon PUSCH transmission into time slot n+5, only transmit PUCCH.
It should be noted that in Figure 19 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires indicate not transmitting the PUSCH on the time slot.
Situation M-2: as shown in figure 20, transmission conditions are with situation M-1, in this case, using second of default conflict
Condition carries out the transmission control of ascending control information, and ascending control information is multiplexed by terminal in time slot n+2 and time slot n+3
It is transmitted on PUSCH, does not transmit PUCCH;It should be noted that in this case, no matter PUCCH and PUSCH transmission are at one
How many a symbols are occupied in time slot, as long as PUCCH is identical with PUSCH transmission primary sign in one time slot, so that it may will be upper
Row control information multiplexing is transmitted on PUSCH.Terminal abandons PUSCH transmission in time slot n+4 and time slot n+5, only transmits
PUCCH。
It should be noted that in Figure 20 oblique line filling frame indicate be PUCCH transmission, vertical line filling frame indicate be
The transmission of PUSCH, cross wires respectively indicate the PUCCH or PUSCH not transmitted on the time slot.
It should be noted that the terminal of the embodiment of the present invention can be according to the specific conflict situations of transmission PUCCH and PUSCH
The mode of transmitting uplink control information, avoids the PUCCH of multi-slot when different when determining multi-slot PUCCH and PUSCH conflict
Different RE resource numbers is occupied in gap to be transmitted, and guarantees that control information and data can be transmitted correctly in NR system, make NR
The performance of system is optimal.
As shown in figure 21, the embodiment of the present invention also provides a kind of message receiving method, is applied to the network equipment, comprising:
Step 211, when the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH occur
When conflict, in the time slot clashed, the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH is received, or
Receive the ascending control information in the target PUCCH of terminal discarding PUSCH transmission.
Specifically, the ascending control information received in the target PUCCH that terminal is multiplexed on PUSCH, or receive
Terminal abandons the step of ascending control information in the target PUCCH of PUSCH transmission, comprising:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Further, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Further, the default conflict condition are as follows: described in the time slot that at least one target PUCCH and PUSCH conflicts
The transmission primary sign of target PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
Wherein, the network equipment described in the present embodiment can be global system for mobile telecommunications (Global System of
Mobile communication, abbreviation GSM) or CDMA (Code Division Multiple Access, referred to as
CDMA the base station (Base Transceiver Station, abbreviation BTS) in), is also possible to wideband code division multiple access (Wideband
Code Division Multiple Access, abbreviation WCDMA) in base station (NodeB, abbreviation NB), can also be in LTE
Evolved base station (Evolutional Node B, abbreviation eNB or eNodeB) perhaps relay station or access point or future
Base station etc. in 5G network, does not limit herein.
Wherein, in above-described embodiment, the description of all about network equipment is suitable for the letter for being applied to the network equipment
In the embodiment of message receiving method, it can also reach same technical effect.
As shown in figure 22, the embodiment of the present invention provides a kind of terminal 220, comprising:
Transmission module 221, for when target physical uplink control channel PUCCH's and Physical Uplink Shared Channel PUSCH
When transmission clashes, in the time slot clashed, the ascending control information in target PUCCH is multiplexed and is carried out on PUSCH
Transmission, or abandon the ascending control information in PUSCH transmission objectives PUCCH.
Specifically, the transmission module 221 is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Further, for the target PUCCH, can be used for according in first transmission time slot of the target PUCCH
The resource particle resource of uplink control information transmission determines the encoder bit rate of ascending control information, in the weight of the target PUCCH
In multiple time slot, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched and transmits upload control
Information.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
It should be noted that the terminal embodiment is and the one-to-one terminal of above method embodiment, above method reality
Identical technical effect can also be reached suitable for the embodiment of the terminal by applying all implementations in example.
As shown in figure 23, the embodiment of the present invention also provides a kind of terminal 230, including processor 231, transceiver 232, storage
Device 233 and it is stored in the computer program that can be run on the memory 233 and on the processor 231;Wherein, transceiver
232 are connect by bus interface with processor 231 and memory 233, wherein the processor 231 is for reading in memory
Program, execute following process:
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
Ascending control information in target PUCCH is multiplexed by transceiver 232 and is transmitted on PUSCH by the time slot clashed,
Or the ascending control information in PUSCH transmission objectives PUCCH of discarding.
It should be noted that bus architecture may include the bus and bridge of any number of interconnection in Figure 23, specifically by
The various circuits for the memory that the one or more processors and memory 233 that processor 231 represents represent link together.Always
Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like can also be linked at one by line architecture
It rises, these are all it is known in the art, and therefore, it will not be further described herein.Bus interface provides interface.It receives
Hair machine 232 can be multiple element, that is, include transmitter and transceiver, provide for over a transmission medium with various other devices
The unit of communication.For different terminals, user interface 234, which can also be, external can be inscribed the interface for needing equipment, connection
Equipment include but is not limited to keypad, display, loudspeaker, microphone, control stick etc..Processor 231 is responsible for management bus
Framework and common processing, memory 233 can store the used data when executing operation of processor 231.
Optionally, the processor 231 is used to read the program in memory 233, executes following process:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by mesh
Ascending control information multiplexing in mark PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Further, for the target PUCCH, can be used for according in first transmission time slot of the target PUCCH
The resource particle resource of uplink control information transmission determines the encoder bit rate of ascending control information, in the weight of the target PUCCH
In multiple time slot, the encoder bit rate of first transmission time slot based on the target PUCCH carries out rate-matched and transmits upload control
Information.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The terminal of the embodiment of the present invention, by when multi-slot PUCCH and PUSCH conflict, using will be in multi-slot PUCCH
Ascending control information multiplexing transmitted on PUSCH, or abandon PUSCH only transmit the uplink control in multi-slot PUCCH
Information processed occupies different RE resource numbers with this perfect communication process, the PUCCH for avoiding multi-slot in different time-gap
It is transmitted, ensure that control information and data can be transmitted correctly in NR system, be optimal the performance of NR system.
The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, wherein institute
State the step of above- mentioned information transmission method is realized when computer program is executed by processor.
As shown in figure 24, the embodiment of the present invention provides a kind of network equipment 240, comprising:
Receiving module 241, for when target physical uplink control channel PUCCH's and Physical Uplink Shared Channel PUSCH
When transmission clashes, in the time slot clashed, the upload control in the target PUCCH that terminal is multiplexed on PUSCH is received
Information, or reception terminal abandon the ascending control information in the target PUCCH of PUSCH transmission.
Further, the receiving module 241 is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
It should be noted that the network equipment embodiment be with the one-to-one network equipment of above method embodiment, on
Identical technology effect can also be reached suitable for the embodiment of the network equipment by stating all implementations in embodiment of the method
Fruit.
As shown in figure 25, the embodiment of the present invention also provides a kind of network equipment 250, including processor 251, transceiver 252,
Memory 253 and it is stored in the computer program that can be run on the memory 253 and on the processor 251;Wherein, it receives
Hair machine 252 is connect by bus interface with processor 251 and memory 253, wherein the processor 251 is for reading storage
Program in device executes following process:
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash,
The time slot clashed receives the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH by transceiver 252,
Or reception terminal abandons the ascending control information in the target PUCCH of PUSCH transmission.
It should be noted that bus architecture may include the bus and bridge of any number of interconnection in Figure 25, specifically by
The various circuits for the memory that the one or more processors and memory 253 that processor 251 represents represent link together.Always
Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like can also be linked at one by line architecture
It rises, these are all it is known in the art, and therefore, it will not be further described herein.Bus interface provides interface.It receives
Hair machine 252 can be multiple element, that is, include transmitter and transceiver, provide for over a transmission medium with various other devices
The unit of communication.For different terminals, processor 251 is responsible for management bus architecture and common processing, and memory 253 can be with
The used data when executing operation of storage processor 251.
Optionally, the processor 251 is used to read the program in memory 253, executes following process:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, receive
The ascending control information in target PUCCH that terminal is multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH are not inconsistent
When closing default conflict condition, in the time slot clashed, the uplink control in the target PUCCH of terminal discarding PUSCH transmission is received
Information processed.
Optionally, the default conflict condition includes the whole in the following conditions:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured does not have
There is conflict.
Optionally, the default conflict condition are as follows: in the time slot that at least one target PUCCH and PUSCH conflicts, the mesh
The transmission primary sign for marking PUCCH and PUSCH is identical.
Specifically, the PUSCH occupies at least one time slot and is transmitted.
Specifically, the target PUCCH belongs to multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots
It is transmitted.
The network equipment of the embodiment of the present invention is being rushed when the transmission of multi-slot PUCCH and PUSCH clash
Prominent time slot receives the ascending control information in the multi-slot PUCCH that terminal is multiplexed on PUSCH, or receives terminal and abandon
Ascending control information in the multi-slot PUCCH of PUSCH transmission, can be accurate to receive eventually according to the transmission situation of terminal with this
The transmission information at end ensure that control information and data can be transmitted correctly in NR system.
The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, wherein institute
State the step of message receiving method is realized when computer program is executed by processor.
Above-described is the preferred embodiment of the present invention, it should be pointed out that the ordinary person of the art is come
It says, can also make several improvements and retouch under the premise of not departing from principle of the present invention, these improvements and modifications also exist
In protection scope of the present invention.
Claims (41)
1. a kind of information transferring method is applied to terminal characterized by comprising
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash, occurring
Ascending control information in target PUCCH is multiplexed and transmits on PUSCH by the time slot of conflict, or abandons PUSCH and only pass
Ascending control information in defeated target PUCCH.
2. information transferring method according to claim 1, which is characterized in that it is described in the time slot clashed, by target
Ascending control information multiplexing in PUCCH is transmitted on PUSCH, or is abandoned upper in PUSCH transmission objectives PUCCH
The step of row control information, comprising:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by target
Ascending control information multiplexing in PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not met
When default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
3. information transferring method according to claim 2, which is characterized in that the default conflict condition includes the following conditions
In whole:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
4. information transferring method according to claim 2, which is characterized in that the default conflict condition are as follows: at least one
The time slot of a target PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
5. information transferring method according to claim 4, which is characterized in that for the target PUCCH, according to the mesh
The resource particle resource that can be used for uplink control information transmission in first transmission time slot of mark PUCCH determines ascending control information
Encoder bit rate, in the repetition time slot of the target PUCCH, the volume of first transmission time slot based on the target PUCCH
Code code rate carries out rate-matched transmitting uplink control information.
6. information transferring method according to claim 4, which is characterized in that the PUSCH occupy at least one time slot into
Row transmission.
7. information transferring method according to claim 1-6, which is characterized in that the target PUCCH belongs to more
Time slot PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
8. a kind of message receiving method is applied to the network equipment characterized by comprising
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash, occurring
The time slot of conflict receives the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH, or receives terminal and abandon
Ascending control information in the target PUCCH of PUSCH transmission.
9. message receiving method according to claim 8, which is characterized in that described to receive what terminal was multiplexed on PUSCH
Ascending control information in target PUCCH, or receive the upload control that terminal abandons in the target PUCCH of PUSCH transmission and believe
The step of breath, comprising:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, terminal is received
The ascending control information in target PUCCH being multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH do not meet it is pre-
If when conflict condition, in the time slot clashed, receiving the upload control that terminal abandons in the target PUCCH of PUSCH transmission and believing
Breath.
10. message receiving method according to claim 9, which is characterized in that the default conflict condition includes following item
Whole in part:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
11. message receiving method according to claim 9, which is characterized in that the default conflict condition are as follows: at least one
The time slot of a target PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
12. message receiving method according to claim 11, which is characterized in that the PUSCH occupies at least one time slot
It is transmitted.
13. according to the described in any item message receiving methods of claim 8-12, which is characterized in that the target PUCCH belongs to
Multi-slot PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
14. a kind of terminal, including memory, processor and it is stored on the memory and can runs on the processor
Computer program;It is characterized in that, the processor performs the steps of when executing the computer program
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash, occurring
Ascending control information in target PUCCH is multiplexed and transmits on PUSCH by the time slot of conflict, or abandons PUSCH and only pass
Ascending control information in defeated target PUCCH.
15. terminal according to claim 14, which is characterized in that the processor is realized when executing the computer program
Following steps:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by target
Ascending control information multiplexing in PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not met
When default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
16. terminal according to claim 15, which is characterized in that the default conflict condition includes complete in the following conditions
Portion:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
17. terminal according to claim 15, which is characterized in that the default conflict condition are as follows: at least one target
The time slot of PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
18. terminal according to claim 17, which is characterized in that for the target PUCCH, according to the target
The resource particle resource that can be used for uplink control information transmission in first transmission time slot of PUCCH determines ascending control information
Encoder bit rate, in the repetition time slot of the target PUCCH, the coding of first transmission time slot based on the target PUCCH
Code rate carries out rate-matched transmitting uplink control information.
19. terminal according to claim 17, which is characterized in that the PUSCH occupies at least one time slot and transmitted.
20. the described in any item terminals of 4-19 according to claim 1, which is characterized in that the target PUCCH belongs to multi-slot
PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
21. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program
The step of information transferring method as described in any one of claim 1 to 7 is realized when being executed by processor.
22. a kind of terminal characterized by comprising
Transmission module occurs for the transmission as target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH
When conflict, in the time slot clashed, the ascending control information in target PUCCH is multiplexed and is transmitted on PUSCH, or
Abandon the ascending control information in PUSCH transmission objectives PUCCH.
23. terminal according to claim 22, which is characterized in that the transmission module is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, by target
Ascending control information multiplexing in PUCCH is transmitted on PUSCH;When the transmission collision of target PUCCH and PUSCH are not met
When default conflict condition, in the time slot clashed, the ascending control information in PUSCH transmission objectives PUCCH is abandoned.
24. terminal according to claim 23, which is characterized in that the default conflict condition includes complete in the following conditions
Portion:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
25. terminal according to claim 23, which is characterized in that the default conflict condition are as follows: at least one target
The time slot of PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
26. terminal according to claim 25, which is characterized in that for the target PUCCH, according to the target
The resource particle resource that can be used for uplink control information transmission in first transmission time slot of PUCCH determines ascending control information
Encoder bit rate, in the repetition time slot of the target PUCCH, the coding of first transmission time slot based on the target PUCCH
Code rate carries out rate-matched transmitting uplink control information.
27. terminal according to claim 25, which is characterized in that the PUSCH occupies at least one time slot and transmitted.
28. according to the described in any item terminals of claim 22-27, which is characterized in that the target PUCCH belongs to multi-slot
PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
29. a kind of network equipment, including memory, processor and it is stored on the memory and can transports on the processor
Capable computer program;It is characterized in that, the processor performs the steps of when executing the computer program
When the transmission of target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH clash, occurring
The time slot of conflict receives the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH, or receives terminal and abandon
Ascending control information in the target PUCCH of PUSCH transmission.
30. the network equipment according to claim 29, which is characterized in that when the processor executes the computer program
It performs the steps of
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, terminal is received
The ascending control information in target PUCCH being multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH do not meet it is pre-
If when conflict condition, in the time slot clashed, receiving the upload control that terminal abandons in the target PUCCH of PUSCH transmission and believing
Breath.
31. the network equipment according to claim 30, which is characterized in that the default conflict condition includes in the following conditions
Whole:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
32. the network equipment according to claim 30, which is characterized in that the default conflict condition are as follows: at least one
The time slot of target PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
33. the network equipment according to claim 32, which is characterized in that the PUSCH occupies the progress of at least one time slot
Transmission.
34. according to the described in any item network equipments of claim 29-33, which is characterized in that when the target PUCCH belongs to more
Gap PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
35. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program
The step of message receiving methods as described in any item such as claim 8 to 13 are realized when being executed by processor.
36. a kind of network equipment characterized by comprising
Receiving module occurs for the transmission as target physical uplink control channel PUCCH and Physical Uplink Shared Channel PUSCH
When conflict, in the time slot clashed, the ascending control information in the target PUCCH that terminal is multiplexed on PUSCH is received, or
Receive the ascending control information in the target PUCCH of terminal discarding PUSCH transmission.
37. the network equipment according to claim 36, which is characterized in that the receiving module is used for:
When the transmission collision of target PUCCH and PUSCH meet default conflict condition, in the time slot clashed, terminal is received
The ascending control information in target PUCCH being multiplexed on PUSCH;When the transmission collision of target PUCCH and PUSCH do not meet it is pre-
If when conflict condition, in the time slot clashed, receiving the upload control that terminal abandons in the target PUCCH of PUSCH transmission and believing
Breath.
38. the network equipment according to claim 37, which is characterized in that the default conflict condition includes in the following conditions
Whole:
Target PUCCH is clashed in the transmission of each occupied time slot and PUSCH;
Transmission primary sign of the target PUCCH and PUSCH in the time slot that each is clashed is identical;
It is transmitted with the PUSCH that each occupied time slot of target PUCCH the clashes repetition for being a PUSCH;
In all time slots clashed, the downstream transmission that the transmission of PUSCH and the network equipment are semi-statically configured is not rushed
It is prominent.
39. the network equipment according to claim 37, which is characterized in that the default conflict condition are as follows: at least one
The time slot of target PUCCH and PUSCH conflict, the transmission primary sign of the target PUCCH and PUSCH are identical.
40. the network equipment according to claim 39, which is characterized in that the PUSCH occupies the progress of at least one time slot
Transmission.
41. according to the described in any item network equipments of claim 36-40, which is characterized in that when the target PUCCH belongs to more
Gap PUCCH, and the multi-slot PUCCH occupies at least two time slots and is transmitted.
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