CN109150459A

CN109150459A - Method of sending and receiving, equipment and the computer-readable medium of UCI

Info

Publication number: CN109150459A
Application number: CN201710459655.9A
Authority: CN
Inventors: 杨涛; 徐夏刚
Original assignee: Nokia Shanghai Bell Co Ltd
Current assignee: Nokia Shanghai Bell Co Ltd
Priority date: 2017-06-16
Filing date: 2017-06-16
Publication date: 2019-01-04
Anticipated expiration: 2037-06-16
Also published as: CN109150459B

Abstract

Embodiment of the disclosure is related to method of sending and receiving, equipment and the computer-readable medium of UCI.Method described herein includes determining multiple HARQ results of transmission for data in response to receiving the data transmitted on high frequency carrier from the network equipment.This method further includes generating UCI.The UCI include: multiple HARQ as a result, high frequency carrier associated with multiple HARQ results instruction, and HARQ process associated with multiple HARQ results instruction or descending time slot associated with multiple HARQ results instruction.This method further includes sending UCI to the network equipment on low frequency carrier signal.

Description

Method of sending and receiving, equipment and the computer-readable medium of UCI

Technical field

Embodiment of the disclosure is related to wireless communication field, relates more specifically to the side for sending ascending control information (UCI) Method, method, terminal device, the network equipment and the computer-readable medium for receiving UCI.

Background technique

Currently, the 5th generation (5G) communication system becomes the research hotspot of industry.For the multi-carrier operation of 5G system, it is expected that Support the combined U CI feedback for the polymerization carrier wave with identical or different parameter configuration.In this regard, it needs further to study Such as the sequential relationship between downlink data transmission and corresponding hybrid automatic repeat-request (HARQ) feedback, to HARQ process The maximum number of influence, the potential limitation of combination, etc. to different parameters configuration.

Summary of the invention

Generally, embodiment of the disclosure proposes the method for UCI that sends, the method for receiving UCI, terminal device, network Equipment and computer-readable medium.

In a first aspect, embodiment of the disclosure provides a kind of method for sending UCI.This method include in response to from The network equipment receives the data transmitted on high frequency carrier, determines multiple HARQ results of transmission for data.This method It further include generating UCI.The UCI include: multiple HARQ as a result, high frequency carrier associated with multiple HARQ results instruction, with And HARQ process associated with multiple HARQ results instruction or descending time slot associated with multiple HARQ results finger Show.This method further includes sending UCI to the network equipment on low frequency carrier signal.

In second aspect, embodiment of the disclosure provides a kind of method for receiving UCI.This method is included in high frequency load Data are transmitted to terminal device on wave.This method further includes receiving UCI from terminal device on low frequency carrier signal.The UCI includes: needle Multiple hybrid automatic repeat-requests (HARQ) to the transmission of data are as a result, high frequency carrier associated with multiple HARQ results Instruction, and HARQ process associated with multiple HARQ results instruction or downlink associated with multiple HARQ results when The instruction of gap.

In the third aspect, embodiment of the disclosure provides a kind of terminal device.The terminal device includes controller and coupling It is bonded to the memory of controller.The memory includes instruction, which makes terminal device execute movement when being executed by controller. The movement includes determining the more of transmission for data in response to receiving the data transmitted on high frequency carrier from the network equipment A HARQ result.The movement further includes generating UCI.The UCI includes: multiple HARQ as a result, associated with multiple HARQ results The instruction of high frequency carrier, and to the instruction of the associated HARQ process of multiple HARQ results or related with multiple HARQ results The instruction of the descending time slot of connection.The movement further includes sending UCI to the network equipment on low frequency carrier signal.

In fourth aspect, embodiment of the disclosure provides a kind of network equipment.The network equipment includes controller and coupling It is bonded to the memory of controller.The memory includes instruction, which makes the network equipment execute movement when being executed by controller. The movement includes transmitting data to terminal device on high frequency carrier.The movement further includes connecing on low frequency carrier signal from terminal device Receive UCI.The UCI includes: multiple hybrid automatic repeat-requests (HARQ) of transmission for data as a result, with multiple HARQ results The instruction of associated high frequency carrier, and HARQ process associated with multiple HARQ results instruction or with multiple HARQ As a result the instruction of associated descending time slot.

At the 5th aspect, embodiment of the disclosure provides a kind of computer-readable medium, including computer executable instructions, The computer executable instructions are performed in equipment so that the equipment executes the method according to first aspect.

At the 6th aspect, embodiment of the disclosure provides a kind of computer-readable medium, including computer executable instructions, The computer executable instructions are performed in equipment so that the equipment executes the method according to second aspect.

It should be appreciated that content described in Summary is not intended to limit the key or again of the embodiment of the present disclosure Feature is wanted, it is also non-for limiting the scope of the present disclosure.Other features of the disclosure will be easy to understand by description below.

Detailed description of the invention

It refers to the following detailed description in conjunction with the accompanying drawings, the above and other feature, advantage and aspect of each embodiment of the disclosure It will be apparent.In the accompanying drawings, the same or similar appended drawing reference indicates the same or similar element, in which:

Fig. 1 shows the example communication network that some embodiments of the disclosure can be implemented within；

Fig. 2 shows the flow charts according to the methods of some embodiments of the disclosure；

Fig. 3 shows the schematic diagram of the UCI of one embodiment according to the disclosure；

Fig. 4 shows the schematic diagram of UCI according to another embodiment of the present disclosure；

Fig. 5 shows the schematic diagram of the UCI of another embodiment according to the disclosure；And

Fig. 6 shows the simplified block diagram for being suitable for realizing the electronic equipment of embodiment of the disclosure.

Specific embodiment

Embodiment of the disclosure is more fully described below with reference to accompanying drawings.Although shown in the drawings of some of the disclosure Embodiment, it should be understood that, the disclosure can be realized by various forms, and should not be construed as being limited to this In the embodiment that illustrates, providing these embodiments on the contrary is in order to more thorough and be fully understood by the disclosure.It should be understood that It is that being given for example only property of the accompanying drawings and embodiments effect of the disclosure is not intended to limit the protection scope of the disclosure.

Term " network equipment " as used herein refers to other realities in base station or communication network with specific function Body or node." base station " can indicate node B (NodeB or NB), evolution node B (eNodeB or eNB), remote radio Unit (RRU), radio-frequency maser (RH), remote radio heads (RRH), repeater or femto base station, femto base station etc. Low power nodes etc..In the context of the disclosure, to discuss convenient purpose, term " network equipment " and " base station " can To be used interchangeably, and mainly using eNB as the example of the network equipment.

Terminology used in this article " terminal device " is to refer to carry out channel radio between base station or each other Any terminal device or user equipment (UE) of letter.As an example, terminal device may include the sensor with communication function, Detector, mobile terminal (MT), subscriber stations (SS), portable subscriber platform (PSS), mobile station (MS) or access terminal (AT), And vehicle-mounted above equipment etc..In the context of the disclosure, to discuss convenient purpose, term " terminal device " and " use Family equipment " may be used interchangeably, and mainly using UE as the example of terminal device.

Term " includes " as used herein and its deformation are that opening includes, i.e., " including but not limited to ".Term "based" It is " being based at least partially on ".Term " one embodiment " expression " at least one embodiment "；Term " another embodiment " indicates " at least one other embodiment ".The related definition of other terms provides in will be described below.

Fig. 1 shows the schematic diagram for the exemplary wireless communication network 100 that embodiment of the disclosure can be implemented within.Nothing Line communication network 100 includes the network equipment 110 and terminal device 120.

Communication between the network equipment 110 and terminal device 120 can be implemented according to any communication protocol appropriate, packet It includes but is not limited to, the cellular communications such as the first generation (1G), the second generation (2G), the third generation (3G), forth generation (4G) and the 5th generation (5G) It the wireless LAN communication agreement of agreement, Institute of Electrical and Electronics Engineers (IEEE) 802.11 etc., and/or is currently known Or any other agreement developed in the future.Moreover, any appropriate wireless communication technique of communication use, including but not limited to, It is CDMA (CDMA), frequency division multiple access (FDMA), time division multiple acess (TDMA), frequency division duplex (FDD), time division duplex (TDD), how defeated Enter multi output (MIMO), orthogonal frequency division multiple access (OFDM), and/or any other technology for being currently known or developing in the future.It answers Considerable to be, although embodiment of the disclosure has mainly used LTE system to be described as example, this is only to show Example property, the system that the technical solution of the disclosure can be completely applied to other suitable existing or following exploitations.

It should be appreciated that the network equipment shown in FIG. 1 number and terminal device number merely for the sake of explanation mesh And have no intention to limit.Cordless communication network 100 may include any suitable type sum number purpose network equipment, and each network is set It is standby that any an appropriate number of cell can be provided, and cordless communication network 100 can also include any an appropriate number of terminal Equipment.

Currently, the multi-carrier operation in 5G communication system is related to the joint portion of low frequency carrier signal transmission and high frequency carrier transmission Administration.For example, as shown in Figure 1, the communication between the network equipment 110 and terminal device 120 can be transmitted via low frequency carrier signal and height Both frequency carrier-wave transmissions is realized.It is apparent that different parameters can be used for low frequency carrier signal transmission and high frequency carrier transmission Configuration.For example, the slot length of high frequency carrier transmission can be greater than for the slot length of low frequency carrier signal transmission.For example, being directed to Low frequency carrier signal transmission can use the slot length of 1ms, and can be long using the time slot of 0.125ms for high frequency carrier transmission Degree.Therefore, the UCI transmitted on low frequency uplink control channel can carry the HARQ knot for multiple high frequency descending time slots Fruit.In the context of the disclosure, to discuss convenient purpose, term " HARQ result " and " HARQ feedback ", which can be interchanged, to be made With.

In traditional long term evolution frequency division duplex (LTE FDD) system, uplink HARQ feedback and corresponding downlink transfer Between there is fixed sequential relationship.It means that terminal device 120 will be in fixed time slot after receiving downlink transfer It is middle to send corresponding HARQ feedback to the network equipment 110.Similarly, in LTE time division duplex (TDD) system, ascending HARQ is anti- Also there is fixed sequential relationship between feedback and corresponding downlink transfer.Although LTE TDD system support up to 7 it is different upper Row/downstream arrangements, and an ascending time slot can carry the HARQ feedback for multiple downlink transfers, but not for 7 With uplink/downlink configuration, communication specification explicitly defines uplink HARQ feedback behavior, and uplink HARQ feedback and corresponding Downlink transfer between also there is fixed sequential relationship.In other words, in LTE TDD, there is no freely send to be directed to down Any flexibility of the HARQ feedback of row transmission, otherwise the network equipment 110 will be unable to know which HARQ feedback is for which Which HARQ process of carrier wave.

In 5G communication system, it is important that when being maintained on low frequency uplink control channel transmission for multiple high frequency downlinks The abundant flexibility of the HARQ feedback of gap.That is, definition is not as defined in LTE FDD system and LTE TDD system The sequential relationship of fixation between uplink HARQ feedback and corresponding downlink transfer.It is assumed that multiple downlink high frequency carriers are grouped together in Together and its corresponding HARQ feedback will be transmitted on identical uplink low frequency carrier signal, then will lead to and carry for multiple high frequencies The HARQ feedback of wave will be included in identical low frequency UCI.Therefore, the network equipment 110 is allowed for clearly identifying and be connect The HARQ feedback of receipts is for which high frequency carrier.

It is the mixing based on code block (codeblock) that 3GPP is being discussed by another situation that will affect HARQ feedback Autonomous retransmission.In the mixed automatic retransfer based on code block, HARQ feedback will include multiple bits and specific HARQ feedback Load will dynamically change because the code block for different time-gap will be different.Therefore, even if utilizing identical/fixation Uplink control channel resource configuration, for different time slots, uplink control channel also may include different number of HARQ feedback.

In order at least be partially solved above-mentioned and other potential defects and the problem in traditional scheme, the reality of the disclosure It applies example and proposes a kind of carried using the UCI sent on low frequency carrier signal for the lower line number on one or more high frequency carriers According to the scheme of the HARQ result of transmission.In embodiment of the disclosure, the height associated with multiple HARQ results in UCI is utilized The instruction of frequency carrier wave, the network equipment can recognize that the HARQ result of the downlink data transmission for which or which high frequency carrier It is included in UCI.Using the instruction of HARQ process associated with HARQ result, the network equipment can recognize that with which or The associated HARQ result of which HARQ process is included in UCI.And utilize descending time slot associated with HARQ result Instruction, the network equipment can recognize that HARQ result associated with which or which descending time slot is included in UCI.By This, it is ensured that the network equipment is to end for low frequency carrier signal transmission and high frequency carrier transmission using different parameters configuration The correct downlink data transmission of end equipment.Hereinafter, the transmission according to the disclosure will be described in detail referring to figs. 2 to Fig. 5 The method of UCI and the method for receiving UCI.

Fig. 2 shows the flow charts of method 200 according to an embodiment of the present disclosure.Method 200 is described below in conjunction with Fig. 1 Involved in act.In order to facilitate discussion, the network equipment 110 and terminal as shown in Figure 1 will be combined to the description of method 200 Equipment 120 carries out.In Fig. 2, for example, each movement on right side is executed by the network equipment 110, and each movement in left side is by end End equipment 120 executes.It should be appreciated that method 200 can also include unshowned additional move and/or can be omitted shown Movement, the scope of the present disclosure are not limited in this respect.

As shown in Fig. 2, the network equipment 110 transmits data to terminal device 120 on high frequency carrier in frame 201.For example, The frequency of high frequency carrier can be located in 24-40GHz frequency range.Certainly, the frequency of high frequency carrier can be located at any frequency appropriate In section, the scope of the present disclosure is not limited in this respect.

In frame 202, terminal device 120 is in response to receiving the data transmitted on high frequency carrier from the network equipment 110, really Multiple HARQ results of fixed transmission for data.

In some embodiments, HARQ result may include HARQ-ACK (confirmation) or HARQ-NACK (negative confirmation).Example Such as, when terminal device 120 receives the data transmitted on a high frequency carrier from the network equipment 110, terminal device 120 can To carry out error detection to received data to determine whether data are correctly received.If data are correctly received, terminal device The HARQ result of transmission for the data is determined as HARQ-ACK by 120.If data are not correctly received, terminal device The HARQ result of transmission for the data is determined as HARQ-NACK by 120.

In frame 203, terminal device 120 generates UCI.The UCI includes multiple HARQ results determined by terminal device 120. In addition, the UCI further includes the instruction of high frequency carrier associated with multiple HARQ results.As a result, in terminal device 120 from network Equipment 110 receives in the case where the data transmitted on multiple high frequency carriers, and terminal device 120 can use to be tied with multiple HARQ The instruction of the associated high frequency carrier of fruit indicates that the downlink data for which or which high frequency carrier passes to the network equipment 110 Defeated HARQ result is included in UCI.

Furthermore the UCI further includes the instruction of HARQ process associated with multiple HARQ results.As a result, in HARQ result In the case where including HARQ result associated with multiple HARQ processes, terminal device 120 can use related to HARQ result The instruction of the HARQ process of connection indicates that HARQ result associated with which or which HARQ process is wrapped to the network equipment 110 It includes in UCI.

Alternatively, which further includes the instruction of descending time slot associated with multiple HARQ results.As previously mentioned, with The slot length of high frequency carrier transmission can be greater than in the slot length of low frequency carrier signal transmission.For example, low frequency carrier signal transmission can be with Using the slot length of 1ms, and high frequency carrier transmission can use the slot length of 0.125ms.Therefore, it is uploaded in low frequency carrier signal The UCI sent can carry the HARQ result for multiple high frequency descending time slots.In embodiment of the disclosure, terminal device 120 can use the instruction of descending time slot associated with HARQ result, indicate and which or which downlink to the network equipment 110 The associated HARQ result of time slot is included in UCI.

In frame 204, terminal device 120 sends UCI to the network equipment 110 on low frequency carrier signal.Due to low-frequency wireless telecommunications The quality in road is more preferable compared to high frequency radio channel, therefore is transmitted using low frequency carrier signal for high frequency downlink data transmission UCI can improve the covering of uplink signaling, ensure that correct high frequency downlink data transmission.

Correspondingly, in frame 205, the network equipment 110 receives UCI from terminal device 120 on low frequency carrier signal.The UCI includes Multiple HARQ results of transmission for data, high frequency carrier associated with multiple HARQ results instruction and with it is multiple The instruction of the associated HARQ process of HARQ result or the instruction of descending time slot associated with multiple HARQ results.Using with The instruction of multiple associated high frequency carriers of HARQ result, the network equipment 110 can recognize that be carried for which or which high frequency The HARQ result of the downlink data transmission of wave is included in UCI.Using the instruction of HARQ process associated with HARQ result, The network equipment 110 can recognize that HARQ result associated with which or which HARQ process is included in UCI.Using with The instruction of the associated descending time slot of HARQ result, the network equipment 110 can recognize that related to which or which descending time slot The HARQ result of connection is included in UCI.

In some embodiments, terminal device 120 can receive the second signaling from the network equipment 110, which refers to Show wherein carry out data transmission descending time slot with wherein send for the transmission HARQ result ascending time slot it Between mapping.In such embodiments, terminal device 120 by for the transmission HARQ result include in UCI and The UCI should be sent in ascending time slot.In some embodiments, the mapping can indicate the descending time slot and the ascending time slot it Between offset.For example, the network equipment 110 number be 1 time slot in terminal device 120 carry out data transmission and this partially Moving is 4, then terminal device 120 sends the HARQ result for being directed to the transmission in the time slot that number is 5 to the network equipment 110.

In some embodiments, it can use the first bitmap to carry HARQ process associated with multiple HARQ results Instruction.Fig. 3 shows the schematic diagram of the UCI 300 according to such embodiment.As described in Figure 3, UCI 300 includes for carrying For the cell 310 of multiple HARQ results of the transmission of downlink data, for carrying high frequency associated with multiple HARQ results First of the cell 320 of the instruction of carrier wave and the instruction for carrying HARQ process associated with multiple HARQ results Figure 33 0.

In some embodiments, cell 320 can be implemented as carrier indication field (carrier indication Field, CIF).The instruction of high frequency carrier associated with multiple HARQ results in cell 320 for example can be high frequency carrier Mark.

First bitmap 330 may include multiple bit 330-1,330-2 ..., 330-n.Bit in first bitmap 330 Number n can be equal to the number for enlivening HARQ process associated with high frequency carrier indicated by cell 320.For example, number n It can be the arbitrary integer in 8 to 16 ranges.

Multiple bit 330-1,330-2 ..., each bit in 330-n be mapped to multiple active HARQ processes One of.For example, bit 330-1 is mapped to the HARQ process with mark 1 in multiple active HARQ processes, bit 330- 2 are mapped to the HARQ process with mark 2 in multiple active HARQ processes, and bit 330-n is mapped to multiple active HARQ process in have mark n HARQ process.

The value of bit indicates whether HARQ result associated with the HARQ process that the bit is be mapped to is included in UCI In.For example, the value of bit 330-1 is 1, indicate associated with the HARQ process with mark 1 that the bit is be mapped to HARQ result 310-1 is included in UCI.The value of bit 330-2 is 0, and instruction has mark 2 with what the bit was be mapped to The associated HARQ result of HARQ process be not included in UCI.The value of bit 330-n is 1, instruction and the bit institute What is be mapped to there is the associated HARQ result 310-n of HARQ process of mark n to be included in UCI.

It should be appreciated that for illustrative purposes, Fig. 3 is illustrated only to be carried by the single high frequency of the content instruction in cell 320 Wave, HARQ process associated with the high frequency carrier information (by bitmap 330 content indicate) and with the high frequency carrier Associated HARQ result (being indicated by the content in cell 310).However, embodiment of the disclosure can be supported in single UCI The middle instruction for sending multiple high frequency carriers, with multiple high frequency carriers respectively the information of associated HARQ process and with it is multiple The respective associated HARQ result of high frequency carrier.For this purpose, cell 320 can carry the instruction of multiple high frequency carriers, bitmap 330 can To carry the information for distinguishing associated HARQ process with multiple high frequency carriers, cell 310 can be carried and multiple high frequency carriers Associated HARQ result respectively.

For example, for the high frequency carrier with mark 1 and the high frequency carrier with mark 2, cell 320 can be carried sequentially Mark 1 and mark 2 are to indicate that the two high frequency carriers, bitmap 330 can sequentially carry related to having the high frequency carrier of mark 1 The information of the HARQ process of connection and with the information of the associated HARQ process of high frequency carrier with mark 2, cell 310 can be with Sequentially carry with have mark 1 the associated HARQ result of high frequency carrier and with identify 2 high frequency carrier it is associated HARQ result.

For another example, for the high frequency carrier with mark 1 and the high frequency carrier with mark 2, UCI300 be may include sequentially Two group of cells of arrangement, wherein each group of cells includes cell 320,330 and 310 and carries respectively and have mark The relevant information of 1 high frequency carrier and information relevant to the high frequency carrier with mark 2.

Certainly, associated HARQ process is distinguished the above is only the instruction of multiple high frequency carriers, with multiple high frequency carriers Information and exemplary arrangement of the associated HARQ result in UCI 300, other arrangements are distinguished with multiple high frequency carriers And it is possible, as long as the network equipment 110 can identify.

In some embodiments, it can use the second bitmap to carry descending time slot associated with multiple HARQ results Instruction.Fig. 4 shows the schematic diagram of the UCI 400 according to such embodiment.As described in Figure 4, UCI 400 includes for carrying For the cell 410 of multiple HARQ results of the transmission of downlink data, for carrying high frequency associated with multiple HARQ results The cell 420 of the instruction of carrier wave and the second of the instruction for carrying descending time slot associated with multiple HARQ results Figure 43 0.

Second Figure 43 0 may include multiple bit 430-1,430-2 ..., 430-n, multiple bit 430-1,430- 2 ..., each bit in 430-n is mapped to multiple continuous downlinks of the UCI before the ascending time slot wherein sent One of time slot.For example, bit 430-1 is mapped to first descending time slot in multiple continuous descending time slots, bit 430-2 Second descending time slot being mapped in multiple continuous descending time slots, bit 430-n are mapped to multiple continuous downlinks The last one descending time slot in time slot.

The value of bit indicates whether HARQ result associated with the descending time slot that the bit is be mapped to is included in UCI In.For example, the value of bit 430-1 is 1, HARQ knot associated with first descending time slot that the bit is be mapped to is indicated Fruit 410-1 is included in UCI.The value of bit 430-2 is 0, second descending time slot that instruction is be mapped to the bit Associated HARQ result is not included in UCI.The value of bit 430-1 is 1, instruction be mapped to the bit the The associated HARQ result of one descending time slot is included in UCI.The value of bit 430-n is 1, and instruction is reflected with the bit The associated HARQ result 410-n of first descending time slot being mapped to is included in UCI.

In some embodiments, the network equipment 110 can transmit not according to for high frequency carrier transmission and low frequency carrier signal Rate request same parameter configuration and fed back for HARQ result, determines the number n of the bit in second Figure 43 0.

In addition, the network equipment 110 can notify identified number to terminal device 120 with signaling.Correspondingly, terminal is set Standby 120 can obtain the number of the bit in second Figure 43 0 by receiving signaling from the network equipment 110, and then can incite somebody to action The HARQ result of the up to number is included in UCI.For example, the number of the bit in second Figure 43 0 is confirmed as 4 feelings Under condition, terminal device 120 can will be up to 4 HARQ results and be included in UCI.However, the HARQ result being included in UCI Actual number depend on second Figure 43 0 in bit value.

In some embodiments, descending time slot associated with multiple HARQ results includes starting descending time slot and starting The set of descending time slot after descending time slot, and the instruction of descending time slot associated with multiple HARQ results includes starting The instruction of the set of the instruction and descending time slot of descending time slot.

In some embodiments, the instruction for originating descending time slot may include the index for originating descending time slot, and downlink The instruction of the set of time slot may include the index of each descending time slot in the set.It is appreciated that in such embodiments, The size of the set of descending time slot can dynamically change, to provide flexible HARQ result feedback system.In addition, although The size of the set of descending time slot can dynamically change, but the network equipment 110 will not generate and obscure, because of the network equipment 110 can be illustrated the number of the time slot of starting descending time slot and UCI between the ascending time slot wherein sent.That is, working as net When network equipment 110 receives UCI, the size of the set of above-mentioned descending time slot can be illustrated in the network equipment 110, so as to realize UCI's is correctly decoded.

In further embodiments, the instruction for originating descending time slot may include the index for originating descending time slot, and can With using third bitmap come the instruction of the set of bearing downlink time slot.Fig. 5 is shown according to the UCI's 500 of such embodiment Schematic diagram.As shown in figure 5, UCI 500 includes the cell for carrying the multiple HARQ results for the transmission for being directed to downlink data 510, when for carrying the cell 520 of the instruction of high frequency carrier associated with multiple HARQ results, for carrying starting downlink The third position of the instruction of the cell 530 of the instruction of gap and the set for carrying the descending time slot after originating descending time slot Figure 54 0.

Third bitmap 540 may include multiple bit 540-1,540-2 ..., 540-n.Bit in third bitmap 540 Number n can be for example pre-configured with by the network equipment 110 by signaling.

Multiple bit 540-1,540-2 ..., each bit in 540-n is mapped in the set of descending time slot One descending time slot.For example, bit 540-1 is mapped to first descending time slot in the set of descending time slot, bit 540-2 Second descending time slot being mapped in the set of descending time slot, bit 540-n are mapped in the set of descending time slot The last one descending time slot.

The value of bit indicates whether HARQ result associated with the descending time slot that the bit is be mapped to is included in UCI In.For example, the value of bit 540-1 is 1, HARQ knot associated with first descending time slot that the bit is be mapped to is indicated Fruit 510-1 is included in UCI.The value of bit 540-2 is 0, second descending time slot that instruction is be mapped to the bit Associated HARQ result is not included in UCI.The value of bit 540-n is 1, and instruction is be mapped to most with the bit The associated HARQ result 510-n of the latter descending time slot is included in UCI.

Embodiment shown in Fig. 3 is appreciated that by comparing embodiment shown in Fig. 3 and Fig. 4 and embodiment shown in fig. 5 In UCI there is smaller expense, and Fig. 4 and embodiment shown in fig. 5 provide more flexible HARQ result feedback system.

In some embodiments, under descending time slot associated with multiple HARQ results includes starting descending time slot and terminates Row time slot, and the instruction of descending time slot associated with multiple HARQ results is including under the instruction and end of starting descending time slot The instruction of row time slot.In such embodiments, terminal device 120 by the instruction for originating descending time slot and terminates descending time slot Indicate and starting descending time slot and terminate the associated HARQ result of descending time slot between descending time slot and be included in UCI In.It is appreciated that in such embodiments, in UCI not including third bitmap 540 as shown in Figure 5.

In some embodiments, the network equipment 110 may successively dispatch two HARQ processes in a slot.For example, network Equipment 110 may dispatch the first HARQ process first in a slot.The of HARQ result after the first HARQ process is scheduled In one feedback opportunity, HARQ result associated with the first HARQ process may be not included in UCI for some reason In.Before second feedback opportunity, the network equipment 110 may scheduled the 2nd different HARQ processes again in this timeslot. As a result, in second feedback opportunity, two HARQ will be present for the time slot as a result, its respectively with the first HARQ process and Two HARQ processes are associated.Therefore, UCI include the instruction of descending time slot associated with HARQ result embodiment (such as Fig. 4 or embodiment shown in fig. 5) in, the network equipment 110 must by the instruction of the descending time slot be illustrated with the first HARQ into Still HARQ result associated with the 2nd HARQ process is included in UCI the associated HARQ result of journey.For this purpose, in this public affairs In the embodiment opened, HARQ result associated with HARQ process scheduled at first is (that is, associated with the first HARQ process HARQ result) it is included in UCI.

Fig. 6 shows the block diagram for being suitable for realizing the communication equipment 600 of embodiment of the disclosure.Equipment 600 can be used to real Sending device or receiving device in existing embodiment of the disclosure, such as the network equipment shown in FIG. 1 110 or terminal device 120。

As shown in the example in Fig. 6, communication equipment 600 may include one or more processors 610, be coupled to processor 610 one or more memories 620 and the one or more transmitters and/or receiver (TX/ for being coupled to processor 610 RX)640。

Processor 610 can be any suitable type suitable for local technical environment, and may include but unlimited In general purpose computer, special purpose computer, microcontroller, digital signal controller (DSP) and based on multi-core processor framework One of processor is a variety of.Communication equipment 600 can have multiple processors, such as be driven in time and main process task The dedicated IC chip of the synchronous clock of device.

Memory 620 can be any suitable type suitable for local technical environment, and any conjunction can be used Suitable data storage technology realizes that, as non-restrictive example, such as non-transient computer-readable storage media is based on semiconductor Memory device, magnetic memory device and system, light storage device and system, fixed memory and removable memory.

At least part of the storage program 630 of memory 620.TX/RX 640 is used for two-way communication.TX/RX 640 has At least one antenna is to promote to communicate, but the equipment can have several antennas in practice.Communication interface can indicate and it Any interface needed for the communication of its network element.

Program 630 may include program instruction, which makes equipment when being executed by associated processor 610 600 can be operated according to the embodiment of the present disclosure, referring to as described in Fig. 2 to Fig. 5.It is, the implementation of the disclosure Example can by can be realized by computer software that the processor 610 of communication equipment 600 executes, or by hardware realization, or Person is implemented in combination with by software and hardware.

In general, the various example embodiments of the disclosure can hardware or special circuit, software, logic or its What implement in combination.Some aspects can be implemented within hardware, and other aspects can by controller, microprocessor or Other are calculated implements in the firmware or software that equipment executes.When the various aspects of embodiment of the disclosure are illustrated or described as frame When figure, flow chart or other certain graphical representations of use, it will be understood that box described herein, device, system, techniques or methods can Using as unrestricted example in hardware, software, firmware, special circuit or logic, common hardware or controller or other in terms of It calculates and implements in equipment or its certain combination.The example that can be used to realize the hardware device of the embodiment of the present disclosure includes but is not limited to: Field programmable gate array (FPGA), specific integrated circuit (ASIC), application specific standard product (ASSP), system on chip (SOC), complexity Programmable logic device (CPLD), etc..

As an example, embodiment of the disclosure can be described in the context of machine-executable instruction, machine can be held Row instruction such as includes in the program module executed in the device on the true or virtual processor of target.In general, Program module includes routine, program, library, object, class, component, data structure etc., executes specific task or realizes specific Abstract data structure.In embodiments, the function of program module can merge between described program module or Segmentation.Machine-executable instruction for program module can execute in local or distributed apparatus.In distributed apparatus In, program module can be located locally in remote medium storage the two.

The computer program code of method used to implement the present disclosure can be write with one or more programming languages.These Computer program code can be supplied to the processing of general purpose computer, special purpose computer or other programmable data processing units Device so that program code when being executed by computer or other programmable data processing units, cause flow chart and/ Or function/operation specified in block diagram is carried out.Program code can completely on computers, part on computers, conduct Independent software package, part are on computers and part is held on a remote computer or server on the remote computer or completely Row.

In the context of the disclosure, machine readable media can be include or storage be used for or about instruction execution system Any tangible medium of the program of system, device or equipment.Machine readable media can be machine-readable signal medium or machine can Read storage medium.Machine readable media can include but is not limited to electronics, magnetic, it is optical, electromagnetism, infrared or partly lead Body system, device or equipment equipment or its any appropriate combination.The more detailed example of machine readable storage medium includes having one Or the electrical connection of multiple conducting wires, portable computer diskette, hard disk, random access memories (RAM), read-only memory (ROM), Erasable Programmable Read Only Memory EPROM (EPROM or flash memory), light storage device, magnetic storage apparatus or its is any appropriate Combination.

In addition, although operation is depicted with particular order, this simultaneously should not be construed and require this generic operation to show Particular order is completed with sequential order, or executes the operation of all diagrams to obtain expected result.In some cases, more Task or parallel processing can be beneficial.Similarly, although discussed above contain certain specific implementation details, this is not It should be interpreted that any invention of limitation or the scope of the claims, and should be interpreted that the specific embodiment that can be directed to specific invention Description.Certain features described in the context of separated embodiment can also be with combined implementation single real in this specification It applies in example.Conversely, the various features described in the context of single embodiment can also discretely multiple embodiments or Implement in any appropriate sub-portfolio.

Although with specific to the language description of structural features and or methods of action theme, but it is to be understood that institute The theme limited in attached claim is not limited to above-described special characteristic or movement.On the contrary, above-described specific spy Movement of seeking peace is disclosed as the exemplary forms for realizing claim.

Claims

1. method of the one kind for sending ascending control information (UCI), comprising:

In response to receiving the data transmitted on high frequency carrier from the network equipment, the multiple of the transmission for being directed to the data are determined Hybrid automatic repeat-request (HARQ) result；

The UCI is generated, the UCI includes:

The multiple HARQ as a result,

The instruction of high frequency carrier associated with the multiple HARQ result, and

The instruction of HARQ process associated with the multiple HARQ result or it is associated with the multiple HARQ result under The instruction of row time slot；And

The UCI is sent to the network equipment on low frequency carrier signal.

2. according to the method described in claim 1, wherein generating the UCI and including:

The first bitmap is generated, first bitmap carries the instruction of the HARQ process.

3. according to the method described in claim 2, wherein multiple bits in first bitmap be mapped to it is multiple active HARQ process, the value of bit indicate HARQ result associated with the HARQ process that the bit is be mapped to whether included In the UCI.

4. according to the method described in claim 1, wherein generating the UCI and including:

The second bitmap is generated, second bitmap carries the instruction of the descending time slot.

5. according to the method described in claim 4, wherein multiple bits in the second figure are mapped to the UCI at it Multiple continuous descending time slots before the middle ascending time slot sent, what the value instruction of a bit was be mapped to the bit Whether the associated HARQ result of descending time slot is included in the UCI.

6. according to the method described in claim 5, further comprising:

First configured to the number to the multiple bit in second bitmap is received from the network equipment Signaling.

7. according to the method described in claim 1, wherein the descending time slot associated with the multiple HARQ result includes Originate the set of the descending time slot after descending time slot and the starting descending time slot；And

Wherein the instruction of the descending time slot associated with the multiple HARQ result includes the starting descending time slot Instruction and descending time slot the set instruction.

8. according to the method described in claim 7, wherein generating the UCI and including:

Generate third bitmap, the instruction of the set of the third bitmap bearing downlink time slot.

9. according to the method described in claim 8, wherein multiple bits in the third bitmap are mapped to descending time slot The set, the value of bit indicate HARQ result associated with the descending time slot that the bit is be mapped to whether included In the UCI.

10. according to the method described in claim 1, further comprising:

The second signaling is received from the network equipment, the second signaling instruction is wherein carrying out the transmission of the data Descending time slot and the mapping between the ascending time slot for wherein sending the HARQ result for being directed to the transmission；

Wherein sending the UCI includes:

Send in the ascending time slot includes the UCI for being directed to the HARQ result of the transmission.

11. according to the method described in claim 1, wherein the descending time slot associated with the multiple HARQ result includes It originates descending time slot and terminates descending time slot；And

Wherein the instruction of the descending time slot associated with the multiple HARQ result includes the starting descending time slot Instruction and it is described terminate descending time slot instruction.

12. according to the method described in claim 1, wherein generating the UCI and including:

In response to the 2nd HARQ process after the first HARQ process and the first HARQ process in one of described descending time slot In be scheduled, generate the UCI, the UCI includes HARQ result associated with the first HARQ process.

13. method of the one kind for receiving ascending control information (UCI), comprising:

Data are transmitted to terminal device on high frequency carrier；And

The UCI is received from the terminal device on low frequency carrier signal, the UCI includes:

Multiple hybrid automatic repeat-requests (HARQ) for the transmission of the data as a result,

The instruction of HARQ process associated with the multiple HARQ result or it is associated with the multiple HARQ result under The instruction of row time slot.

14. according to the method for claim 13, wherein receiving the UCI and including:

The first bitmap is received, first bitmap carries the instruction of the HARQ process.

15. according to the method for claim 14, wherein multiple bits in first bitmap be mapped to it is multiple active HARQ process, the value of bit indicates whether HARQ result associated with the HARQ process that the bit is be mapped to is wrapped It includes in the UCI.

16. according to the method for claim 13, wherein receiving the UCI and including:

The second bitmap is received, second bitmap carries the instruction of the descending time slot.

17. according to the method for claim 16, existing wherein multiple bits in the second figure are mapped to the UCI The value instruction of multiple continuous descending time slots before the ascending time slot wherein sent, a bit is be mapped to the bit The associated HARQ result of descending time slot whether be included in the UCI.

18. according to the method for claim 17, further comprising:

First configured to the number to the multiple bit in second bitmap is sent to the terminal device Signaling.

19. according to the method for claim 13, wherein the descending time slot packet associated with the multiple HARQ result Include the set of the descending time slot after starting descending time slot and the starting descending time slot；And

20. according to the method for claim 19, wherein receiving the UCI and including:

Receive third bitmap, the instruction of the set of the third bitmap bearing downlink time slot.

21. according to the method for claim 20, wherein multiple bits in the third bitmap are mapped to descending time slot The set, the value of bit indicates whether HARQ result associated with the descending time slot that the bit is be mapped to is wrapped It includes in the UCI.

22. according to the method for claim 13, further comprising:

The second signaling is sent to the terminal device, the second signaling instruction is wherein carrying out the transmission of the data Descending time slot and the mapping between the ascending time slot for wherein sending the HARQ result for being directed to the transmission；

Wherein receiving the UCI includes:

Receive in the ascending time slot includes the UCI for being directed to the HARQ result of the transmission.

23. according to the method for claim 13, wherein the descending time slot packet associated with the multiple HARQ result It includes starting descending time slot and terminates descending time slot；And

24. according to the method for claim 13, further comprising:

The 2nd HARQ process after the first HARQ process and the first HARQ process is dispatched in one of described descending time slot；

Wherein receiving the UCI includes:

Reception includes the UCI of HARQ result associated with the first HARQ process.

25. a kind of terminal device, comprising:

Controller；And

It is coupled to the memory of the controller, the memory includes instruction, and described instruction by the controller when being executed The terminal device is set to execute movement, the movement includes:

The UCI is generated, the UCI includes:

The multiple HARQ as a result,

The UCI is sent to the network equipment on low frequency carrier signal.

26. terminal device according to claim 25, wherein generating the UCI and including:

27. terminal device according to claim 26, wherein multiple bits in first bitmap be mapped to it is multiple Whether the value of active HARQ process, a bit indicates HARQ result associated with the HARQ process that the bit is be mapped to It is included in the UCI.

28. terminal device according to claim 25, wherein generating the UCI and including:

29. terminal device according to claim 28, wherein multiple bits in the second figure be mapped to it is described Multiple continuous descending time slots of the UCI before the ascending time slot wherein sent, value instruction and the bit institute of a bit Whether the associated HARQ result of the descending time slot being mapped to is included in the UCI.

30. terminal device according to claim 29, wherein the movement further comprises:

31. terminal device according to claim 25, wherein when the downlink associated with the multiple HARQ result Gap includes originating the set of the descending time slot after descending time slot and the starting descending time slot；And

32. terminal device according to claim 31, wherein generating the UCI and including:

33. terminal device according to claim 32, wherein multiple bits in the third bitmap are mapped to downlink Whether the value of the set of time slot, a bit indicates HARQ result associated with the descending time slot that the bit is be mapped to It is included in the UCI.

34. terminal device according to claim 25, wherein the movement further comprises:

Wherein sending the UCI includes:

35. terminal device according to claim 25, wherein when the downlink associated with the multiple HARQ result Gap includes starting descending time slot and end descending time slot；And

36. terminal device according to claim 25, wherein generating the UCI and including:

37. a kind of network equipment, comprising:

Controller；And

It is coupled to the memory of the controller, the memory includes instruction, and described instruction by the controller when being executed The network equipment is set to execute movement, the movement includes:

Data are transmitted to terminal device on high frequency carrier；And

38. the network equipment according to claim 37, wherein receiving the UCI and including:

39. the network equipment according to claim 38, wherein multiple bits in first bitmap be mapped to it is multiple Whether the value of active HARQ process, a bit indicates HARQ result associated with the HARQ process that the bit is be mapped to It is included in the UCI.

40. the network equipment according to claim 37, wherein receiving the UCI and including:

41. the network equipment according to claim 40, wherein multiple bits in the second figure be mapped to it is described Multiple continuous descending time slots of the UCI before the ascending time slot wherein sent, value instruction and the bit institute of a bit Whether the associated HARQ result of the descending time slot being mapped to is included in the UCI.

42. the network equipment according to claim 41, wherein the movement further comprises:

43. the network equipment according to claim 37, wherein when the downlink associated with the multiple HARQ result Gap includes originating the set of the descending time slot after descending time slot and the starting descending time slot；And

44. the network equipment according to claim 43, wherein receiving the UCI and including:

45. the network equipment according to claim 44, wherein multiple bits in the third bitmap are mapped to downlink Whether the value of the set of time slot, a bit indicates HARQ result associated with the descending time slot that the bit is be mapped to It is included in the UCI.

46. the network equipment according to claim 37, wherein the movement further comprises:

Wherein receiving the UCI includes:

47. the network equipment according to claim 37, wherein when the downlink associated with the multiple HARQ result Gap includes starting descending time slot and end descending time slot；And

48. the network equipment according to claim 37, wherein the movement further comprises:

Wherein receiving the UCI includes:

49. a kind of computer-readable medium, including computer executable instructions, computer executable instructions quilt in equipment The equipment is made to execute method according to any one of claim 1 to 12 when execution.

50. a kind of computer-readable medium, including computer executable instructions, computer executable instructions quilt in equipment The equipment is made to execute method described in any one of 3 to 24 according to claim 1 when execution.