CN110034867A - It is used for transmission method, terminal device and the network equipment of HARQ-ACK - Google Patents

Abstract

The invention discloses a kind of method for being used for transmission HARQ-ACK, terminal device and the network equipments, this method is by designing the quantity for the bit that HARQ-ACK includes and whether sending the mapping relations between SR request and the cyclic shift digit of the sequence of carrying HARQ-ACK, so that the cyclic shift digit carrying HARQ-ACK of corresponding sequence when carrying out HARQ-ACK feedback to base station, can be used in terminal.In this way, whether base station after receiving the cyclic shift digit for the sequence that terminal uses, with the presence or absence of missing inspection or can send SR request based on the cyclic shift digit accurate judgement terminal, to guarantee normal data transmission between terminal and base station.

Description

It is used for transmission method, terminal device and the network equipment of HARQ-ACK

Technical field

The present invention relates to the communications fields more particularly to one kind to be used for transmission hybrid automatic repeat-request-confirmation (HARQ- ACK method, terminal device and the network equipment).

Background technique

Terminal physically sends hybrid automatic repeat-request to base station on Uplink Control Channel (PDCCH/ePDCCH) Confirm (HARQ-ACK) and/or when scheduling request (scheduling request, SR), can use length for 12 computer Formation sequence (CGS).Wherein, a CGS may include 12 cyclic shift digits (cycle shift, CS), and HARQ-ACK can To be a bit, it is also possible to two bits.Terminal is sending the HARQ-ACK of a bit and is sending SR request, transmission one The HARQ-ACK of a bit and do not send SR request, send two bits HARQ-ACK and send SR request, send two ratio It special HARQ-ACK and does not send SR and requests that specific CS can be used to send HARQ-ACK under four kinds of different application scenarios At least one is requested with SR.Therefore, it is necessary to design the HARQ-ACK of different bit numbers and whether send SR request and carrying Mapping relations between the cyclic shift digit of the sequence of HARQ-ACK, so that terminal is carrying out HARQ-ACK feedback to base station When, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is in the sequence for receiving terminal and using After the cyclic shift digit of column, the reception state of accurate judgement terminal can be capable of based on the cyclic shift digit or whether is sent SR request, to guarantee normal data transmission between terminal and base station.

Summary of the invention

The embodiment of the present invention provides sending method, terminal device and the network equipment of a kind of HARQ-ACK, existing to solve When the DL-SCH transmission block that terminal is sent in missing inspection base station in technology, base station is unable to judge accurately terminal to DL-SCH transmission block Whether reception state has the problem of resource request.

In order to solve the above-mentioned technical problem, the present invention is implemented as follows:

In a first aspect, providing a kind of method for being used for transmission HARQ-ACK, it is applied to terminal device, this method comprises:

According to the quantity of the HARQ-ACK bit for including and whether send SR request, the selection target from multiple mapping relations Mapping relations, the multiple mapping relations include: that the quantity of bit is 1 and sends the sequence for carrying HARQ-ACK when SR request The first mapping relations, the quantity of bit of cyclic shift digit and the value state of the HARQ-ACK bit for including are 1 and do not send out The of the cyclic shift digit of the sequence of HARQ-ACK and the value state of the HARQ-ACK bit that includes is carried when SR being sent to request The cyclic shift digit and HARQ- of the sequence of carrying HARQ-ACK when two mapping relations, the quantity of bit are 2 and send SR request Third mapping relations, the quantity of bit of the value state for the bit that ACK includes are 2 and carry HARQ- when not sending SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of ACK include；

According to the value state of the HARQ-ACK bit for including and the target mapping relations, determine carrying HARQ-ACK's The cyclic shift digit of sequence.

Second aspect provides a kind of method for being used for transmission HARQ-ACK, is applied to the network equipment, this method comprises:

Receive the sequence of carrying HARQ-ACK；

According to the quantity for the bit that terminal needs the HARQ-ACK reported to include, selection target is reflected from multiple mapping relations Relationship is penetrated, the multiple mapping relations include: that the quantity of bit is 1 and sends following for the sequence for carrying HARQ-ACK when SR request The first mapping relations, the quantity of bit of ring shift amount and the value state of the HARQ-ACK bit for including are 1 and do not send The second of the value state for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when SR is requested The cyclic shift digit and HARQ- of the sequence of carrying HARQ-ACK when mapping relations, the quantity of bit are 2 and send SR request Third mapping relations, the quantity of bit of the value state for the bit that ACK includes are 2 and carry HARQ- when not sending SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of ACK include；

According to the cyclic shift digit and the target mapping relations of the sequence of the carrying HARQ-ACK, HARQ- is determined Whether the value state and the terminal for the bit that ACK includes send SR request.

The third aspect provides a kind of terminal device, which includes:

Whether selecting module according to the quantity of the HARQ-ACK bit for including and sends SR request, from multiple mapping relations Middle selection target mapping relations, the multiple mapping relations include: that the quantity of bit is 1 and carries HARQ- when sending SR request The cyclic shift digit of the sequence of ACK and the first mapping relations of the value state of the HARQ-ACK bit for including, the number of bit Amount is 1 and does not send the cyclic shift digit of sequence and taking for the HARQ-ACK bit for including for carrying HARQ-ACK when SR request The cyclic shift of the sequence of carrying HARQ-ACK when the second mapping relations, the quantity of bit of state of value are 2 and send SR request Third mapping relations, the quantity of bit of the value state for the bit that digit and HARQ-ACK include are 2 and do not send SR request When carrying HARQ-ACK the cyclic shift digit of sequence and the 4th mapping of value state of the HARQ-ACK bit that includes close System；

Determining module determines carrying according to the value state of the HARQ-ACK bit for including and the target mapping relations The cyclic shift digit of the sequence of HARQ-ACK.

Fourth aspect provides a kind of network equipment, which includes:

Receiving module receives the sequence of carrying HARQ-ACK；

Selecting module, according to the quantity for the bit that terminal needs the HARQ-ACK reported to include, from multiple mapping relations Selection target mapping relations, the multiple mapping relations include: that the quantity of bit is 1 and carries HARQ-ACK when sending SR request The cyclic shift digit of sequence be with the first mapping relations, the quantity of bit of the value state of the HARQ-ACK bit for including 1 and when not sending SR request the cyclic shift digit of the sequence of carrying HARQ-ACK and the HARQ-ACK bit that includes value shape The cyclic shift digit of the sequence of carrying HARQ-ACK when the second mapping relations, the quantity of bit of state are 2 and send SR request Third mapping relations, the quantity of bit with the value state of the HARQ-ACK bit for including are 2 and hold when not sending SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK for carrying the sequence of HARQ-ACK include；

Determining module, according to it is described carrying HARQ-ACK sequence cyclic shift digit and the target mapping relations, Determine whether the value state for the bit that HARQ-ACK includes and the terminal send SR request.

5th aspect, provides a kind of terminal device, which includes processor, memory and be stored in described deposit On reservoir and the computer program that can run on the processor, the computer program are realized when being executed by the processor The step of method as described in relation to the first aspect.

6th aspect, provides a kind of network equipment, which includes processor, memory and be stored in described deposit On reservoir and the computer program that can run on the processor, the computer program are realized when being executed by the processor The step of method as described in second aspect.

7th aspect, provides a kind of computer readable storage medium, which is characterized in that the computer-readable storage medium Computer program is stored in matter, and the step of method as described in relation to the first aspect is realized when the computer program is executed by processor Suddenly.

Eighth aspect provides a kind of computer readable storage medium, which is characterized in that the computer-readable storage medium Computer program is stored in matter, and the step of the method as described in second aspect is realized when the computer program is executed by processor Suddenly.

In technical solution provided in an embodiment of the present invention, by designing the quantity for the bit that HARQ-ACK includes and whether sending out SR is sent to request the mapping relations between the cyclic shift digit of the sequence of carrying HARQ-ACK, so that terminal is carried out to base station When HARQ-ACK is fed back, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is receiving After the cyclic shift digit for the sequence that terminal uses, missing inspection can be whether there is based on the cyclic shift digit accurate judgement terminal Or SR request whether is sent, to guarantee normal data transmission between terminal and base station.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes a part of the invention, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the flow diagram for the method that one embodiment of the present of invention is used for transmission HARQ-ACK；

Fig. 2 is the flow diagram for the method that one embodiment of the present of invention is used for transmission HARQ-ACK；

Fig. 3 is the structural schematic diagram of one embodiment of the present of invention terminal device；

Fig. 4 is the structural schematic diagram of one embodiment of the present of invention network equipment；

Fig. 5 is the structural schematic diagram of one embodiment of the present of invention terminal device；

Fig. 6 is the structural schematic diagram of one embodiment of the present of invention network equipment.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention."and/or" indicates institute's connecting object at least in specification and claim One of.

Terminal on PDCCH/ePDCCH with base station when carrying out data transmission, after base station sends data block to terminal, if Terminal is properly received and decodes the data block, then ACK can be sent to base station, if terminal decodes the data received not successfully Block then can send NACK to base station.In addition, terminal is on PDCCH if terminal does not detect the data block that base station is sent There will not be any transmission (i.e. DTX).It wherein, can be with if base station determines that the data block received is not successfully decoded in terminal It again, can be again to end if base station determines the data block that terminal does not detect that base station is sent to terminal transmission parity bit End sends the data block.

Terminal can send SR request when on PDCCH/ePDCCH to base station requests resource to base station.In general, terminal exists When sending HARQ-ACK (including ACK and NACK two states), SR request can be sent to base station simultaneously.Specifically, terminal can To use length to send HARQ-ACK and SR request to base station for 12 CGS.Wherein, a CGS may include 0~11 can be with The cyclic shift digit used, i.e. CS.

The cyclic shift position that terminal can be used under four kinds of different application scenarios is defined in 3GGP TS 38.213 Number.Specifically as shown in table 1 to 4.

Table 1 is the sequence that terminal can be used in the case where sending the HARQ-ACK of a bit and transmission SR request (sequence) cyclic shift digit (cyclic shift, CS).The HARQ-ACK of a bit includes two kinds of bits in table 1 Value state (HARQ-ACK Value) " 0 " and " 1 ", wherein " 0 " can indicate that terminal decodes one received not successfully Data block, i.e. terminal need the NACK to one bit of base station feedback, and " 1 " can indicate that one received is successfully decoded in terminal Data block, i.e. terminal need the ACK to one bit of base station feedback.

Table 1

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

From table 1 it follows that terminal is in the case where sending SR request, terminal can make when to base station feedback ACK Cyclic shift digit is 3；The cyclic shift digit that terminal can be used when to base station feedback NACK is 9.

Table 2 is terminal in the HARQ-ACK of one bit of transmission and does not send the sequence that can be used in the case where SR request Cyclic shift digit.The HARQ-ACK of a bit also includes the value state " 0 " and " 1 " of two kinds of bits in table 2, specifically may be used Description is not repeated herein referring to the above-mentioned record to table 1.

Table 2

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

From Table 2, it can be seen that terminal is not in the case where sending SR request, terminal can be with when to base station feedback ACK The cyclic shift digit used is 0；The cyclic shift digit that terminal can be used when to base station feedback NACK is 6.

Table 3 is the sequence that terminal can be used in the case where sending the HARQ-ACK of two bits and transmission SR request Cyclic shift digit.In table 3 HARQ-ACK of two bits include the value state " { 0,0 } " of four kinds of bits, " { 0,1 } ", " { 1,1 } " and " { 1,0 } ", wherein " { 0,0 } " can indicate that terminal decodes the data of two bits received not successfully Block, i.e. terminal are needed to base station feedback (NACK, NACK), and " { 0,1 } " can indicate that terminal decodes first received not successfully The data block of second bit received is successfully decoded in a data block, i.e. terminal is needed to base station feedback (NACK, ACK), " { 1,1 } " can indicate that terminal is successfully decoded the data block of two bits received, i.e., terminal need to base station feedback (ACK, ACK), " { 1,0 } " can indicate that first data block received is successfully decoded in terminal, decode second received not successfully The data block of bit, i.e. terminal are needed to base station feedback (ACK, NACK).

Table 3

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	11

From table 3 it is observed that terminal is in the case where sending SR request, when terminal is to base station feedback (NACK, NACK) The cyclic shift digit that can be used is 1；The cyclic shift digit that terminal can be used when to base station feedback (NACK, ACK) It is 4；The cyclic shift digit that terminal can be used when to base station feedback (ACK, ACK) is 7；Terminal is to base station feedback The cyclic shift digit that can be used when (ACK, NACK) is 11.

Table 4 is terminal in the HARQ-ACK of two bits of transmission and does not send the sequence that can be used in the case where SR request Cyclic shift digit.In table 4 HARQ-ACK of two bits also include four kinds of bits value state " { 0,0 } ", " 0, 1 } ", " { 1,1 } " and " { 1,0 } ", specifically may refer to the above-mentioned record to table 3, description is not repeated herein.

Table 4

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	0	3	6	9

As can be seen from Table 4, for terminal in the case where not sending SR request, terminal is to base station feedback (NACK, NACK) When the cyclic shift digit that can be used be 0；The cyclic shift position that terminal can be used when to base station feedback (NACK, ACK) Number is 3；The cyclic shift digit that terminal can be used when to base station feedback (ACK, ACK) is 6；Terminal is to base station feedback The cyclic shift digit that can be used when (ACK, NACK) is 9.

However, in practical applications, base station is after sending data block to terminal, and there may be detection leakage phenomenons for terminal, with base Station scheduled for 2 PDSCH feed back on a PUCCH, due to one PDSCH of terminal missing inspection, terminal only can be in phase The HARQ-ACK of a bit is fed back on the PUCCH answered.If at this time if terminal need to send a bit SR request with Uplink UL-SCH resource is requested, then, based on known to above-mentioned table 1:

If the PDSCH detected is successfully decoded in terminal, terminal can send one using the cyclic shift digit 9 of sequence The ACK and SR of bit, but in base station side, that base station expectation receives is the HARQ-ACK of two bits, and can be according to 2 bits HARQ-ACK mode come understand terminal use cyclic shift digit, i.e., base station can be interpreted as based on table 4 terminal transmission It is (ACK, NACK), and terminal does not have scheduling of resource demand；

If terminal decodes the PDSCH detected not successfully, terminal can send one using the cyclic shift digit 3 of sequence The NACK and SR of a bit, but in base station side, base station it is expected to receive the HARQ-ACK of two bits, and can be according to 2 bits HARQ-ACK mode come understand terminal use cyclic shift digit, i.e., base station can be interpreted as based on table 4 terminal transmission It is (NACK, ACK), and terminal does not have scheduling of resource demand.

It can be seen that as long as, one PDSCH of terminal missing inspection, no matter terminal is when base station sends two PDSCH to terminal No that another PDSCH is properly received and is decoded, the SR request that terminal is sent all cannot be by base station accurate understanding, i.e. base station cannot The SR request for receiving terminal transmission, causes base station that can not find the dispatching requirement of terminal in time, is in time terminal distribution phase The UL-SCH resource answered.

In addition to this, reflecting between the value state for the bit that above-mentioned HARQ-ACK includes and the cyclic shift digit of sequence It penetrates in relationship, the HARQ- of two bits in the value state " 0 " and table 4 of the bit that the HARQ-ACK of a bit includes in table 2 The value state " { 0,0 } " for the bit that ACK includes all corresponds to the cyclic shift digit 0 of sequence, bit in table 2 The value state for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 4 of the bit that HARQ-ACK includes " { 1,1 } " all corresponds to the cyclic shift digit 6 of sequence.

In this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, one PDSCH of terminal missing inspection and do not need When sending SR request, if terminal decodes the PDSCH received not successfully, terminal can use the cyclic shift digit of sequence 0 sends NACK to base station；If the PDSCH received is successfully decoded in terminal, terminal can use the cyclic shift position of sequence Number 6 sends ACK to base station.But in base station side, base station still according to the HARQ-ACK of two bits and can understand terminal based on table 4 The cyclic shift digit of the sequence used, i.e. base station can be misunderstood to be terminal transmission be (NACK, NACK) or (ACK, ACK)。

For the ACK of terminal feedback, terminal needs base station to retransmit the PDSCH of missing inspection, but understand for base station For (ACK, ACK), since base station error understanding terminal does not have missing inspection PDSCH, base station will not retransmit PDSCH, lead to base Station be unable to judge accurately terminal whether missing inspection, thus influence between terminal and base station data transmission.

In conclusion the mapping relations between the quantity of the HARQ-ACK of above-mentioned record and the cyclic shift digit of sequence are deposited In drawback, when the data block that terminal is sent in missing inspection base station, base station is unable to judge accurately terminal, and whether missing inspection or terminal have Resource request, i.e. base station cannot distinguish between DTX and NACK/ACK, or cannot timely receive SR.

It is set in view of this, the embodiment of the present invention provides a kind of method for being used for transmission HARQ-ACK, terminal device and network It is standby, this method application and terminal device, this method comprises: according to the quantity of the HARQ-ACK bit for including and whether sending SR and asking It asks, the selection target mapping relations from multiple mapping relations, multiple mapping relations include: that the quantity of bit is 1 and sends SR The value for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when (positive SR) is requested The first mapping relations, the quantity of bit of state are 1 and do not send the sequence for carrying HARQ-ACK when SR (negative SR) request The second mapping relations, the quantity of bit of the value state for the bit that the cyclic shift digits of column and HARQ-ACK include be 2 and The value state for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when sending SR request Third mapping relations, the quantity of bit be 2 and do not send SR request when carrying HARQ-ACK sequence cyclic shift digit with It is wrapped in 4th mapping relations of the value state for the bit that HARQ-ACK includes, the first mapping relations and/or the second mapping relations The cyclic shift digit included is different from the cyclic shift digit that the 4th mapping relations include；The bit for including according to HARQ-ACK Value state and the target mapping relations determine the cyclic shift digit of the sequence of carrying HARQ-ACK.

In this way, by the quantity for designing the bit that HARQ-ACK includes and whether sending SR request and carrying HARQ-ACK Mapping relations between the cyclic shift digit of sequence, so that terminal can be used when carrying out HARQ-ACK feedback to base station The cyclic shift digit of corresponding sequence carries HARQ-ACK.In this way, base station is moved in the circulation for receiving the sequence that terminal uses After the digit of position, whether SR request with the presence or absence of missing inspection or can be sent based on the cyclic shift digit accurate judgement terminal, thus Guarantee that normal data are transmitted between terminal and base station.

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

Technical solution of the present invention can be applied to various communication systems, such as: global system for mobile communications (GSM, Global System of Mobile communication), CDMA (CDMA, Code Division Multiple Access) system, wideband code division multiple access (WCDMA, Wideband Code Division Multiple Access), general point Group wireless traffic (GPRS, General Packet Radio Service), long term evolution (LTE, Long Term Evolution)/enhancing long term evolution (LTE-A, Long Term Evolutionadvanced), NR (New Radio) etc..

User terminal (UE, User Equipment), also referred to as mobile terminal (Mobile Terminal), mobile use Family equipment etc., can through wireless access network (for example, RAN, Radio Access Network) and one or more core nets into Row communication, user equipment can be mobile terminal, such as mobile phone (or being " honeycomb " phone) and the meter with mobile terminal Calculation machine, for example, it may be portable, pocket, hand-held, built-in computer or vehicle-mounted mobile device, they and nothing Line access exchanges language and/or data.

Base station can be the base station (BTS, Base Transceiver Station) in GSM or CDMA, be also possible to Base station (NodeB) in WCDMA can also be evolved base station (eNB or e-NodeB, evolutional Node in LTE B) and the base station 5G (gNB), the present invention does not limit, but for convenience of description, and following embodiments are illustrated by taking gNB as an example.

The technical solution provided below in conjunction with attached drawing, each embodiment that the present invention will be described in detail.

Fig. 1 is the flow diagram for the method that one embodiment of the present of invention is used for transmission HARQ-ACK, and the method is answered For terminal device, the method is as described below.

Step 102: according to the quantity of the HARQ-ACK bit for including and SR request whether is sent, from multiple mapping relations Selection target mapping relations.

In a step 102, when to base station feedback HARQ-ACK, the HARQ-ACK that can according to need feedback includes terminal Bit quantity and whether send SR request, the selection target mapping relations from multiple mapping relations, in order to according to Target mapping relations determine the cyclic shift digit of the sequence of carrying HARQ-ACK.

In the embodiment of the present invention, the multiple mapping relations can specifically include four mapping relations, be first to reflect respectively Penetrate relationship, the second mapping relations, third mapping relations and the 4th mapping relations, wherein first mapping relations are bits Quantity be 1 and send SR (positive SR) request when carrying HARQ-ACK sequence cyclic shift digit and HARQ- Mapping relations between the value state for the bit that ACK includes can be used for characterizing terminal and send a bit to base station HARQ-ACK and send SR request when, the cyclic shift digit for the sequence that terminal can be used；

Second mapping relations are that the quantity of bit is 1 and carries HARQ- when not sending SR (negative SR) request Mapping relations between the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of ACK include, can be used for Terminal is characterized when sending the HARQ-ACK of a bit to base station and not sending SR request, the cyclic shift that terminal can be used Digit；

The third mapping relations are the circulations of the sequence of carrying HARQ-ACK when the quantity of bit is 2 and sends SR request Mapping relations between the value state for the bit that shift amount and HARQ-ACK include can be used for characterizing terminal in Xiang Jizhan When sending the HARQ-ACK of two bits and sending SR request, the cyclic shift digit for the sequence that terminal can be used；

4th mapping relations are that the quantity of bit is 2 and does not send following for the sequence for carrying HARQ-ACK when SR request Mapping relations between the value state for the bit that ring shift amount and HARQ-ACK include can be used for characterizing terminal to base It stands when sending the HARQ-ACK of two bits and not sending SR request, cyclic shift digit that terminal can be used.

It should be noted that second mapping relations include in the sending instant for being configured to SR request, the quantity of bit For 1 and terminal requests the sequence that HARQ-ACK is carried when (1bit HARQ-ACK and negative SR) no need to send SR Cyclic shift digit and the HARQ-ACK bit that includes value state between mapping relations, or asked being not configured as SR The sending instant asked, the cyclic shift of the sequence of carrying HARQ-ACK when the quantity of bit is 1 (1bit HARQ-ACK only) Mapping relations between the value state for the bit that digit and HARQ-ACK include；

4th mapping relations include in the sending instant for being configured to SR request, and the quantity of bit is that 2 and UE is not needed Send SR request (2bit HARQ-ACK and negative SR) when carrying HARQ-ACK sequence cyclic shift digit with Mapping relations between the value state for the bit that HARQ-ACK includes, or be not configured as SR request sending instant, than The cyclic shift digit and HARQ-ACK packet of the sequence of carrying HARQ-ACK when special quantity is 2 (2bit HARQ-ACKonly) Mapping relations between the value state of the bit included.

In the embodiment of the present invention, in order to enable whether base station can be sent with the reception state of accurate judgement terminal and terminal SR request, at least described first mapping relations can be different from the 4th mapping relations, or, second mapping relations and institute State the 4th mapping relations different or first mapping relations and second mapping relations with the 4th mapping relations It is different.In this way, the cyclic shift digit carrying of corresponding sequence when carrying out HARQ-ACK feedback to base station, can be used in terminal HARQ-ACK, base station, can be quasi- based on the cyclic shift digit after receiving the cyclic shift digit for the sequence that terminal uses Terminal is really judged with the presence or absence of missing inspection or whether sends SR request, to guarantee normal data transmission between terminal and base station. Specifically:

In one embodiment of the invention, first mapping relations, second mapping relations, third mapping Relationship and the 4th mapping relations can be respectively as shown in tables 5 to 8:

Table 5

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

Table 6

The value state of bit	0	1
			The cyclic shift digit of sequence	4	10

Table 7

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

Table 8

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	0	3	6	9

In table 5 and table 6, the value state (HARQ-ACK Value) for the bit that the HARQ-ACK of a bit includes is respectively For " 0 " and " 1 ", wherein " 0 " can indicate that terminal decodes the data block received not successfully, i.e. terminal is needed to base station The NACK of a bit is fed back, " 1 " can indicate that the data block received is successfully decoded in terminal, i.e. terminal is needed to base station Feed back the ACK of a bit.

The value state for the bit that the HARQ-ACK of two bits includes in table 7 and table 8 be respectively " { 0,0 } ", " 0, 1 } ", " { 1,1 } " and " { 1,0 } ", wherein " { 0,0 } " can indicate that terminal decodes the number of two bits received not successfully According to block, i.e. terminal is needed to base station feedback (NACK, NACK), and " { 0,1 } " can indicate that terminal decodes received not successfully The data block of second bit received is successfully decoded in one data block, i.e. terminal is needed to base station feedback (NACK, ACK), " { 1,1 } " can indicate that terminal is successfully decoded the data block of two bits received, i.e., terminal need to base station feedback (ACK, ACK), " { 1,0 } " can indicate that first data block received is successfully decoded in terminal, decode second received not successfully The data block of bit, i.e. terminal are needed to base station feedback (ACK, NACK).

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention can make base station only send the feelings of SR request in terminal Be unable to judge accurately under condition terminal whether missing inspection, and then reduce base station can not judge terminal whether missing inspection the case where generation it is general Rate.

Specifically, based on known to above-mentioned table 5 to table 8:

The HARQ- of two bits in the value state " 0 " and table 7 of the bit that the HARQ-ACK of a bit includes in table 5 The value state " { 0,0 } " for the bit that ACK includes all corresponds to the cyclic shift digit 1 of sequence；Bit in table 5 The value state for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 4 of the bit that HARQ-ACK includes " { 1,1 } " all corresponds to the cyclic shift digit 7 of sequence；

The HARQ- of two bits in the value state " 0 " and table 7 of the bit that the HARQ-ACK of a bit includes in table 6 The value state " { 0,1 } " for the bit that ACK includes all corresponds to the cyclic shift digit 4 of sequence, bit in table 6 The value state for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 7 of the bit that HARQ-ACK includes " { 1,0 } " all corresponds to the cyclic shift digit 10 of sequence.

In this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 1 of sequence.In base station side, base The cyclic shift digit 1 for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 7 by standing, specific to manage Solution is (NACK, NACK) for terminal transmission, and further determines that terminal is not successfully receiving two PDSCH and has sent SR Request.At this point, base station can retransmit two PDSCH to terminal, in this way, can be considered as the reception shape of base station accurate understanding terminal State.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 7 of sequence.In base station side, base station The cyclic shift digit 7 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 7, it is specific to understand That for terminal transmission is (ACK, ACK), and further determines that terminal is successfully received two PDSCH and has sent SR request.This When, since base station understands that terminal is properly received and decodes two PDSCH, base station will not retransmit PDSCH to terminal, in this way, The information that base station is lost terminal missing inspection PDSCH can be considered as, without accurate understanding terminal reception state.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 4 of sequence.In base station side, base The cyclic shift digit 4 for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 7 by standing, and specific That be interpreted as terminal transmission is (NACK, ACK), and further determines that terminal is not successfully receiving one of PDSCH and hair SR request is sent.At this point, base station can retransmit PDSCH to terminal, in this way, can be considered as the reception shape that base station portion understands terminal State.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 10 of sequence.In base station side, base Standing still can understand the cyclic shift digit 10 for the sequence that terminal uses according to the HARQ-ACK of two bits and based on table 7, and have That body is interpreted as terminal transmission is (ACK, NACK), and further determines that one of PDSCH and hair is not successfully decoded in terminal SR request is sent.At this point, base station can retransmit the PDSCH of missing inspection to terminal, in this way, can be considered as base station does not lose terminal missing inspection The information of PDSCH, and the accurate understanding reception state of terminal.

It can be seen that reception of the error understanding terminal to two PDSCH is only just understood in base station under above-mentioned second situation Situation.Since above-mentioned second situation is the time that terminal needs to send SR request, the time that two terminals send SR request is compared Short in the time that terminal does not send SR request, therefore, compared to existing technologies, the present embodiment is by base station error understanding terminal In the case where being limited in terminal transmission SR request to the reception condition of two PDSCH, can greatly reduce base station can not accurately sentence Disconnected terminal whether missing inspection PDSCH the case where probability of happening.

It should be noted that in above-mentioned the third and the 4th kind, terminal is no need to send SR request, but base Standing-meeting error understanding terminal has sent SR request, at this point, base station can receive base station distribution to terminal distribution resource, terminal Resource after, can choose without using the resource, this to data normal between base station and terminal transmission can't have an impact.

It should also be noted that, in the case where terminal does not have missing inspection, terminal according to practical reception condition and can be It is no to need to send SR request, and (can be a ratio to base station feedback HARQ-ACK based on the mapping relations in above-mentioned table 5 to 8 Spy is also possible to two bits), at this point, base station can determine terminal based on the cyclic shift digit for the sequence that terminal uses Whether reception state and terminal need to send SR request, and description is not repeated herein.

For four kinds of mapping relations provided in an embodiment of the present invention are compared to existing mapping relations (table 1 to 4), in terminal The HARQ-ACK of a bit is sent to base station, and terminal is sending SR request and do not sending SR two kinds of application scenarios of request Under, the cyclic shift digit for the sequence that terminal can be used is different, allows base station only can not when terminal sends SR request Accurate judgement terminal whether missing inspection, and then reduce base station can not judge terminal whether missing inspection the case where probability of happening.In addition, this Also without increasing terminal to the resource occupation of the cyclic shift digit of sequence in inventive embodiments.

In a second embodiment of the present invention, first mapping relations, second mapping relations, the third are reflected It penetrates relationship and the 4th mapping relations can be respectively as shown in table 9 to 12:

Table 9

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

Table 10

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

Table 11

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

Table 12

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	0	3	6	9

In table 9 and table 10, the value state " 0 " for the bit that the HARQ-ACK of a bit includes and the specific physics of " 1 " Meaning may refer to the record of the value state for the bit that the above-mentioned HARQ-ACK to a bit in table 5 and table 6 includes, here It is not repeated to describe.

The value state " { 0,0 } " of the bit that the HARQ-ACK of two bits includes in table 11 and table 12, " { 0,1 } ", The physical significance of " { 1,1 } " and " { 1,0 } " may refer to the above-mentioned HARQ-ACK to two bits in table 7 and table 8 The record of the value state of bit, is also not repeated to describe here.

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention can make base station whether accurate judgement terminal Reception state, at least will not error understanding terminal whether have sent SR request, thus guarantee terminal send SR request it is reliable Property.

Specifically, based on known to above-mentioned table 9 to table 12:

The HARQ- of two bits in the value state " 0 " and table 11 of the bit that the HARQ-ACK of a bit includes in table 9 The cyclic shift digit 1 for the sequence that the value state " { 0,0 } " for the bit that ACK includes all corresponds to；Bit in table 9 The value state for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 11 of the bit that HARQ-ACK includes " { 1,1 } " all corresponds to the cyclic shift digit 7 of sequence.

Two bits in the value state " 0 " and table 12 of the bit that the HARQ-ACK of a bit includes in table 10 The value state " { 0,1 } " for the bit that HARQ-ACK includes all corresponds to the cyclic shift digit 0 of sequence, a bit in table 10 The value state " 1 " of the HARQ-ACK bit that includes and the HARQ-ACK of two bits in table 7 bit that includes value shape State " { 1,1 } " all corresponds to the cyclic shift digit 6 of sequence.

In this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 1 of sequence.In base station side, base The cyclic shift digit 1 for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 11 by standing, specifically That be interpreted as terminal transmission is (NACK, NACK), and further determines that terminal is not successfully receiving two PDSCH and has sent SR request.It follows that base station can have sent SR request with correct understanding terminal, while the also correct understanding reception shape of terminal State.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 7 of sequence.In base station side, base station The cyclic shift digit 7 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 11, it is specific to manage Solution is (ACK, ACK) for terminal transmission, and further determines that terminal is successfully received two PDSCH and has sent SR request. It follows that base station can have sent SR request, but the reception state of the non-correct understanding terminal in base station with correct understanding terminal.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 0 of sequence.In base station side, base Standing still can understand the cyclic shift digit 0 for the sequence that terminal uses according to the HARQ-ACK of two bits and based on table 12, and have That body is interpreted as terminal transmission is (NACK, NACK), and further determines that terminal is not properly received two PDSCH and not sent SR request.It follows that base station can be with the not sent SR request of correct understanding terminal, while base station also connecing for terminal of correct understanding Receipts state.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 6 of sequence.In base station side, base station The cyclic shift digit 6 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 12, and specific That be interpreted as terminal transmission is (ACK, ACK), and further determines that two PDSCH are successfully decoded in terminal and not sent SR is requested. It follows that base station can be requested with the not sent SR of correct understanding terminal, but the reception state of the non-correct understanding terminal in base station.

Record based on above-mentioned four kinds of situations it is found that base station in the case that the first situation and the third correct understanding The reception state of terminal, the reception state of non-correct understanding terminal in second situation and the 4th kind, base station is upper In the case of stating four kinds all will not error understanding terminal whether have sent SR request.In this way, no matter base station whether correct understanding terminal Reception state, at least base station will not misinterpretation terminal whether have sent SR request, thus ensure that terminal send SR request Reliability.In addition, above-mentioned four kinds of mapping relations provided in an embodiment of the present invention, compared to existing mapping relations (table 1 to 4) For, in the case where guaranteeing whether base station can have sent SR request with correct understanding terminal, also occupied without increasing terminal The cyclic shift digit of sequence does not increase the number of resources of terminal occupancy.

In third embodiment of the invention, first mapping relations, second mapping relations, the third are reflected It penetrates relationship and the 4th mapping relations can be respectively as shown in table 13 to 16:

Table 13

The value state of bit	0	1
			The cyclic shift digit of sequence	2	8

Table 14

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

Table 15

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

Table 16

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	0	3	6	9

In table 13 and table 14, the value state " 0 " for the bit that the HARQ-ACK of a bit includes and the specific physics of " 1 " Meaning may refer to the record of the value state for the bit that the above-mentioned HARQ-ACK to a bit in table 5 and table 6 includes, here It is not repeated to describe.

The value state " { 0,0 } " of the bit that the HARQ-ACK of two bits includes in table 15 and table 16, " { 0,1 } ", The physical significance of " { 1,1 } " and " { 1,0 } " may refer to the above-mentioned HARQ-ACK to two bits in table 7 and table 8 The record of the value state of bit, is also not repeated to describe here.

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention can make base station whether accurate judgement terminal Reception state, at least will not error understanding terminal whether have sent SR request, thus guarantee terminal send SR request it is reliable Property.In addition, base station can also by terminal in the case of the cyclic shift digit judgment part of the sequence detected whether missing inspection.

Specifically, based on known to above-mentioned table 13 to table 16:

Two bits in the value state " 0 " and table 16 of the bit that the HARQ-ACK of a bit includes in table 14 The cyclic shift digit 0 for the sequence that the value state " { 0,0 } " for the bit that HARQ-ACK includes all corresponds to；A ratio in table 14 The value for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 16 of the bit that special HARQ-ACK includes State and " { 1,1 } " all correspond to the cyclic shift digit 6 of sequence.

In this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 2 of sequence.In base station side, base The cyclic shift digit for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 15 or table 16 by standing, But the cyclic shift digit 2 of sequence, therefore, the sequence that base station can be sent according to terminal in table 15 and table 16 are not included Cyclic shift digit 2 determine terminal the case where there are missing inspections, and terminal has sent SR.In this way, base station can be based on different The reception state of the cyclic shift digit accurate understanding terminal of sequence and whether have sent SR request.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 8 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 15 or table 16, but It is not comprising the cyclic shift digit 8 of sequence in table 15 and table 16, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 8 determines terminal the case where there are missing inspections, and terminal has sent SR.In this way, base station can be based on different sequences The reception state of the cyclic shift digit accurate understanding terminal of column and whether have sent SR request.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 0 of sequence.In base station side, base Standing still can understand the cyclic shift digit 0 for the sequence that terminal uses according to the HARQ-ACK of two bits and based on table 16, and have That body is interpreted as terminal transmission is (NACK, NACK), and further determines that terminal is not properly received two PDSCH and not sent SR request.It follows that base station can be with the not sent SR request of correct understanding terminal, while base station also connecing for terminal of correct understanding Receipts state.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 6 of sequence.In base station side, base station The cyclic shift digit 6 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 16, and specific That be interpreted as terminal transmission is (ACK, ACK), and further determines that two PDSCH are successfully decoded in terminal and not sent SR is requested. It follows that base station can be requested with the not sent SR of correct understanding terminal, but the reception state of the non-correct understanding terminal in base station.

Record based on above-mentioned four kinds of situations is it is found that base station can correctly manage in the first situation and second situation The reception state of terminal is solved, the reception state of non-correct understanding terminal in the third situation and the 4th kind, base station exists In the case of above-mentioned four kinds all will not error understanding terminal whether have sent SR request.In this way, no matter whether correct understanding is whole for base station The reception state at end, at least base station will not misinterpretation terminal whether have sent SR request, thus ensure that terminal send SR ask The reliability asked.In addition, base station can also be in the case where determining that terminal has sent SR request, the reception shape of correct understanding terminal State.

In the 4th embodiment of the invention, first mapping relations, second mapping relations, the third are reflected It penetrates relationship and the 4th mapping relations can be respectively as shown in table 17 to 20:

Table 17

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

Table 18

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

Table 19

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

Table 20

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	2	5	8	11

In table 17 and table 18, the value state " 0 " for the bit that the HARQ-ACK of a bit includes and the specific physics of " 1 " Meaning may refer to the record of the value state for the bit that the above-mentioned HARQ-ACK to a bit in table 5 and table 6 includes, here It is not repeated to describe.

The value state " { 0,0 } " of the bit that the HARQ-ACK of two bits includes in table 19 and table 20, " { 0,1 } ", The physical significance of " { 1,1 } " and " { 1,0 } " may refer to the above-mentioned HARQ-ACK to two bits in table 7 and table 8 The record of the value state of bit, is also not repeated to describe here.

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention, on the one hand can make base station can be with correct understanding terminal Whether have sent SR request, on the other hand can also with accurate judgement terminal whether missing inspection.

Specifically, based on known to above-mentioned table 17 to table 20:

Cyclic shift position of the cyclic shift digit for the sequence for including in each table with the sequence for including in other tables Number is different, in this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 3 of sequence.In base station side, base The cyclic shift digit for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 19 or table 20 by standing, But the cyclic shift digit 3 of sequence, therefore, the sequence that base station can be sent according to terminal in table 19 and table 20 are not included Cyclic shift digit 3 determine terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on not With sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 9 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 19 or table 20, but It is not comprising the cyclic shift digit 9 of sequence in table 19 and table 20, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 9 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference Sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 0 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 19 or table 20, but It is not comprising the cyclic shift digit 0 of sequence in table 19 and table 20, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 0 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference Sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 6 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 19 or table 20, but It is not comprising the cyclic shift digit 6 of sequence in table 19 and table 20, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 6 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference The reception state of the cyclic shift digit accurate understanding terminal of sequence and whether have sent SR request.

Record based on above-mentioned four kinds of situations is it is found that the circulation of the sequence used under different application scene due to terminal is moved Position digit is different, and therefore, the cyclic shift digit for the different sequences that base station can be used according to terminal accurately determines terminal Whether have sent SR request and whether there is missing inspection, and then the reliability of raising terminal transmission SR request and base station judgement are whole The accuracy of reception state is held, guarantees that normal data are transmitted between base station and terminal.

In the 5th embodiment of the invention, first mapping relations, second mapping relations, the third are reflected It penetrates relationship and the 4th mapping relations can be respectively as shown in table 21 to 24:

Table 21

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

Table 22

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

Table 23

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	2	5	8	11

Table 24

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

In table 21 and table 22, the value state " 0 " for the bit that the HARQ-ACK of a bit includes and the specific physics of " 1 " Meaning may refer to the record of the value state for the bit that the above-mentioned HARQ-ACK to a bit in table 5 and table 6 includes, here It is not repeated to describe.

The value state " { 0,0 } " of the bit that the HARQ-ACK of two bits includes in table 23 and table 24, " { 0,1 } ", The physical significance of " { 1,1 } " and " { 1,0 } " may refer to the above-mentioned HARQ-ACK to two bits in table 7 and table 8 The record of the value state of bit, is also not repeated to describe here.

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention, on the one hand can make base station can be with correct understanding terminal Whether have sent SR request, on the other hand can also with accurate judgement terminal whether missing inspection.

Specifically, based on known to above-mentioned table 21 to table 24:

Cyclic shift position of the cyclic shift digit for the sequence for including in each table with the sequence for including in other tables Number is different, in this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 3 of sequence.In base station side, base The cyclic shift digit for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 23 or table 24 by standing, But the cyclic shift digit 3 of sequence, therefore, the sequence that base station can be sent according to terminal in table 23 and table 24 are not included Cyclic shift digit 3 determine terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on not With sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 9 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 23 or table 24, but It is not comprising the cyclic shift digit 9 of sequence in table 23 and table 24, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 9 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference Sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 0 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 23 or table 24, but It is not comprising the cyclic shift digit 0 of sequence in table 23 and table 24, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 0 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference Sequence cyclic shift digit accurate understanding terminal reception state and whether have sent SR request.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 6 of sequence.In base station side, base station The cyclic shift digit for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 23 or table 24, but It is not comprising the cyclic shift digit 6 of sequence in table 23 and table 24, therefore, base station can be according to the sequence that terminal is sent Cyclic shift digit 6 determines terminal the case where there are missing inspections, and terminal has sent SR request.In this way, base station can be based on difference The reception state of the cyclic shift digit accurate understanding terminal of sequence and whether have sent SR request.

Record based on above-mentioned four kinds of situations is it is found that the circulation of the sequence used under different application scene due to terminal is moved Position digit is different, and therefore, the cyclic shift digit for the different sequences that base station can be used according to terminal accurately determines terminal Whether have sent SR and whether there is missing inspection, and then raising terminal sends the reliability of SR request and base station judges that terminal connects The accuracy of receipts state guarantees that normal data are transmitted between base station and terminal.

In the 6th embodiment of the invention, first mapping relations, second mapping relations, the third are reflected It penetrates relationship and the 4th mapping relations can be respectively as shown in table 25 to 28:

Table 25

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

Table 26

The value state of bit	0	1
			The cyclic shift digit of sequence	10	4

Table 27

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

Table 28

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	0	3	6	9

In table 25 and table 26, the value state (HARQ-ACK Value) point for the bit that the HARQ-ACK of a bit includes It Wei " 0 " and " 1 ", wherein " 0 " can indicate that terminal decodes the data block received not successfully, i.e. terminal is needed to base It stands and feeds back the NACK of a bit, " 1 " can indicate that the data block received is successfully decoded in terminal, i.e. terminal is needed to base It stands and feeds back the ACK of a bit.

The value state for the bit that the HARQ-ACK of two bits includes in table 27 and table 28 be respectively " { 0,0 } ", " 0, 1 } ", " { 1,1 } " and " { 1,0 } ", wherein " { 0,0 } " can indicate that terminal decodes the number of two bits received not successfully According to block, i.e. terminal is needed to base station feedback (NACK, NACK), and " { 0,1 } " can indicate that terminal decodes received not successfully The data block of second bit received is successfully decoded in one data block, i.e. terminal is needed to base station feedback (NACK, ACK), " { 1,1 } " can indicate that terminal is successfully decoded the data block of two bits received, i.e., terminal need to base station feedback (ACK, ACK), " { 1,0 } " can indicate that first data block received is successfully decoded in terminal, decode second received not successfully The data block of bit, i.e. terminal are needed to base station feedback (ACK, NACK).

Above-mentioned four kinds of mapping relations provided in an embodiment of the present invention can make base station only send the feelings of SR request in terminal Be unable to judge accurately under condition terminal whether missing inspection, and then reduce base station can not judge terminal whether missing inspection the case where generation it is general Rate.

Specifically, based on known to above-mentioned table 5 to table 8:

Two bits in the value state " 0 " and table 27 of the bit that the HARQ-ACK of a bit includes in table 25 The value state " { 0,0 } " for the bit that HARQ-ACK includes all corresponds to the cyclic shift digit 1 of sequence；A bit in table 25 The value state " 1 " of the HARQ-ACK bit that includes and the HARQ-ACK of two bits in table 27 bit that includes value shape State " { 1,1 } " all corresponds to the cyclic shift digit 7 of sequence；

Two bits in the value state " 0 " and table 27 of the bit that the HARQ-ACK of a bit includes in table 26 The value state " { 1,0 } " for the bit that HARQ-ACK includes all corresponds to the cyclic shift digit 10 of sequence, a ratio in table 26 The value for the bit that the HARQ-ACK of two bits includes in the value state " 1 " and table 27 of the bit that special HARQ-ACK includes State " { 0,1 } " all corresponds to the cyclic shift digit 4 of sequence.

In this way, when base station scheduled 2 PDSCH and feed back on a PUCCH, if terminal missing inspection one of them PDSCH, then, at least there are following several situations when sending HARQ-ACK to base station in terminal:

The first situation: terminal decodes the PDSCH received not successfully, and sends SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 1 of sequence.In base station side, base The cyclic shift digit 1 for the sequence that terminal uses can still be understood according to the HARQ-ACK of two bits and based on table 27 by standing, specifically That be interpreted as terminal transmission is (NACK, NACK), and further determines that terminal is not successfully receiving two PDSCH and has sent SR request.At this point, base station can retransmit two PDSCH to terminal, in this way, can be considered as the reception shape of base station accurate understanding terminal State.

Second situation: the PDSCH received is successfully decoded in terminal, and sends SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 7 of sequence.In base station side, base station The cyclic shift digit 7 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 27, it is specific to manage Solution is (ACK, ACK) for terminal transmission, and further determines that terminal is successfully received two PDSCH and has sent SR request. At this point, since base station understands that terminal is properly received and decodes two PDSCH, base station will not retransmit PDSCH to terminal, this Sample can be considered as the information that base station is lost terminal missing inspection PDSCH, without accurate understanding terminal reception state.

The third situation: terminal decodes the PDSCH received not successfully, and does not send SR request.

In this case, terminal can send NACK to base station using the cyclic shift digit 10 of sequence.In base station side, base Standing still can understand the cyclic shift digit 10 for the sequence that terminal uses according to the HARQ-ACK of two bits and based on table 27, and have That body is interpreted as terminal transmission is (ACK, NACK), and further determines that terminal is not successfully receiving second PDSCH and hair SR request is sent.At this point, base station can retransmit corresponding second PDSCH of NACK to terminal, in this way, can be considered as base station portion reason Solve the reception state of terminal.

4th kind of situation: the PDSCH received is successfully decoded in terminal, and does not send SR request.

In this case, terminal can send ACK to base station using the cyclic shift digit 4 of sequence.In base station side, base station The cyclic shift digit 4 for the sequence that terminal uses can be still understood according to the HARQ-ACK of two bits and based on table 27, and specific That be interpreted as terminal transmission is (NACK, ACK), and further determines that terminal is not successfully decoded first PDSCH and has sent SR request.At this point, base station can retransmit corresponding first PDSCH of NACK to terminal, understand eventually in this way, base station portion can be considered as The reception state at end.

It can be seen that the base station reception condition of meeting error understanding terminal to two PDSCH under above-mentioned second situation.By In above-mentioned second situation be terminal need to send SR request time, and terminal send SR request time not compared to terminal The time for sending SR request wants short, and therefore, compared to existing technologies, the present embodiment is by base station error understanding terminal to two In the case that the reception condition of PDSCH is limited in terminal transmission SR request, base station can be greatly reduced and be unable to judge accurately terminal Whether missing inspection PDSCH the case where probability of happening.

It should be noted that in above-mentioned the third and the 4th kind, terminal is no need to send SR request, but base Standing-meeting error understanding terminal has sent SR request, at this point, base station can receive base station distribution to terminal distribution resource, terminal Resource after, can choose without using the resource, this to data normal between base station and terminal transmission can't have an impact.

It should also be noted that, in the case where terminal does not have missing inspection, terminal according to practical reception condition and can be It is no to need to send SR request, and (can be one to base station feedback HARQ-ACK based on the mapping relations in above-mentioned table 25 to 28 Bit is also possible to two bits), at this point, base station can determine terminal based on the cyclic shift digit for the sequence that terminal uses Reception state and terminal whether need to send SR request, description is not repeated herein.

For four kinds of mapping relations provided in an embodiment of the present invention are compared to existing mapping relations (table 1 to 4), in terminal The HARQ-ACK of a bit is sent to base station, and terminal is sending SR request and do not sending SR two kinds of application scenarios of request Under, the cyclic shift digit for the sequence that terminal can be used is different, allows base station only can not when terminal sends SR request Accurate judgement terminal whether missing inspection, and then reduce base station can not judge terminal whether missing inspection the case where probability of happening.In addition, this Also without increasing terminal to the resource occupation of the cyclic shift digit of sequence in inventive embodiments.

In above-mentioned six kinds of embodiments, terminal is after one or two data block for receiving base station transmission, Ke Yigen According to the amount of bits that the HARQ-ACK fed back is actually needed and whether need to send SR request to base station, it can be from described first Mapping relations, the third mapping relations, select corresponding target to reflect in the 4th mapping relations at second mapping relations Penetrate relationship.

For example, if terminal needs to feed back the HARQ-ACK of a bit, and need to send SR request to base station, then terminal can To select first mapping relations as the target mapping relations；If terminal needs to feed back the HARQ-ACK of two bits, And do not need to send SR request to base station, then terminal can choose the 4th mapping relations as the target mapping relations. It no longer describes one by one herein.

Terminal can execute step 104 after determining the target mapping relations.

Step 104: according to the value state of the HARQ-ACK bit for including and the target mapping relations, determining carrying The cyclic shift digit of the sequence of HARQ-ACK.

At step 104, terminal can according to need the HARQ-ACK packet of feedback after determining the target mapping relations The value state of the bit included and the target mapping relations can determine the cyclic shift position of the sequence of carrying HARQ-ACK Number.

Specifically, terminal can determine taking to the HARQ-ACK of the base station feedback bit for including according to practical reception state State of value, for example, can determine the HARQ-ACK packet to base station feedback if the data block received is successfully decoded in terminal The value state of the bit included is " 1 "；If terminal decodes the data block of two bits received not successfully, can determine to The value state for the bit that the HARQ-ACK of base station feedback includes is " { 0,0 } ".

Terminal, can be according to the target after determining the value state to the HARQ-ACK of the base station feedback bit for including Mapping relations determine the cyclic shift digit of the sequence of carrying HARQ-ACK.

For example, terminal to the value state of the HARQ-ACK of the base station feedback bit for including be " 1 ", and the target map Relationship is first mapping relations, then, terminal can determine that the cyclic shift digit of the sequence of carrying HARQ-ACK is described It is the cyclic shift digit of " 1 " corresponding sequence with the value state of bit in first mapping relations.

It should be noted that based on six embodiments recorded in above-mentioned steps 102, in practical applications, terminal can be with The four kinds of mapping relations provided using which embodiment are provided according to actual needs

For example, above-mentioned one embodiment or second can be used if terminal increases the resource of the sequence occupied Four kinds of mapping relations that embodiment provides；If terminal wish base station can accurate judgement terminal reception state, and can sentence Whether disconnected terminal sends SR request, then can be used and reflected using four kinds that above-mentioned 4th embodiment or the 5th embodiment provide Penetrate relationship；If terminal base station can accurately identify whether terminal sends SR request, while can reduce the resource occupation to sequence, The four kinds of mapping relations that can be then provided using above-mentioned second embodiment.

Terminal can be based further on above-mentioned steps after determining the four kinds of mapping relations provided using which embodiment 102 and step 104 in the content recorded further determine that the target mapping relations and carry the sequence of HARQ-ACK Cyclic shift digit.

Technical solution provided in an embodiment of the present invention, by designing the quantity for the bit that HARQ-ACK includes and whether sending Mapping relations between the cyclic shift digit of the sequence of SR request and carrying HARQ-ACK, so that terminal is carried out to base station When HARQ-ACK is fed back, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is receiving After the cyclic shift digit for the sequence that terminal uses, missing inspection can be whether there is based on the cyclic shift digit accurate judgement terminal Or SR request whether is sent, to guarantee normal data transmission between terminal and base station.

Fig. 2 is the flow diagram for the method that one embodiment of the present of invention is used for transmission HARQ-ACK.The method is answered For the network equipment, the method is as described below.

Step 202: receiving the sequence of carrying HARQ-ACK.

In step 202, after sending one or two data block to terminal, terminal can be carried to base station feedback for base station HARQ-ACK, at this point, base station can receive the sequence of the carrying HARQ-ACK of terminal feedback.

Step 204: according to the quantity for the bit that terminal needs the HARQ-ACK reported to include, being selected from multiple mapping relations Select target mapping relations.

In step 204, base station, can be according to terminal need after receiving the sequence of carrying HARQ-ACK of terminal transmission The quantity for the bit that the HARQ-ACK to be reported includes, the selection target mapping relations from multiple mapping relations.

In the embodiment of the present invention, multiple mapping relations may include the first mapping relations, the second mapping relations, third mapping Relationship and the 4th mapping relations, wherein first mapping relations, second mapping relations, the third mapping relations And first mapping relations, second mapping relations, institute that the 4th mapping relations and embodiment illustrated in fig. 1 are recorded It states third mapping relations and the 4th mapping relations is identical, description is not repeated herein.

Base station is when the quantity for the bit for needing the HARQ-ACK reported to include according to terminal determines target mapping relations, tool Body, if the quantity for the bit that terminal needs the HARQ-ACK reported to include is 1, can choose first mapping relations with And second mapping relations are the target mapping relations, if the quantity for the bit that terminal needs the HARQ-ACK reported to include It is 2, then can choose the third mapping relations and the 4th mapping relations are the target mapping relations.

Step 206: according to the cyclic shift digit and the target mapping relations of the sequence of the carrying HARQ-ACK, really Whether the value state and the terminal for determining the bit that HARQ-ACK includes send SR request.

In step 206, base station, can be according to the sequence of the carrying HARQ-ACK after determining the target mapping relations The cyclic shift digit of column and the target mapping relations, determine the bit that HARQ-ACK includes value state and the end Whether end sends SR request.

Specifically, base station may further determine that carrying HARQ- after the sequence for receiving the carrying HARQ-ACK The cyclic shift digit of the sequence of ACK is reflected according to the cyclic shift digit and the target for the sequence for carrying HARQ-ACK It, can be by the cyclic shift digit of the sequence and the mesh when relationship of penetrating determines the value state for the bit that HARQ-ACK includes Mark mapping relations are matched, and the value state for the bit that HARQ-ACK includes is determined according to matching result.

Base station can map according to the target of selection and close in the value state for determining bit that HARQ-ACK includes It is to determine whether terminal has sent SR request.Specifically, if the target mapping relations are first mapping relations or described Third mapping relations, it is determined that terminal sends SR request, if the target mapping relations are second mapping relations or described 4th mapping relations, it is determined that the not sent SR request of terminal.

In embodiments of the present invention, base station, can also be further according to HARQ- after determining whether terminal sends SR request The value state for the bit that ACK includes determines the terminal to the reception state of the data block.It specifically may refer to Fig. 1 institute The terminal recorded in the embodiment shown after the sequence for determining carrying HARQ-ACK, sentence according to the HARQ-ACK that terminal is fed back by base station The content of the reception state of disconnected terminal, is not repeated herein description.

Technical solution provided in an embodiment of the present invention, by designing the quantity for the bit that HARQ-ACK includes and whether sending Mapping relations between the cyclic shift digit of the sequence of SR request and carrying HARQ-ACK, so that terminal is carried out to base station When HARQ-ACK is fed back, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is receiving After the cyclic shift digit for the sequence that terminal uses, missing inspection can be whether there is based on the cyclic shift digit accurate judgement terminal Or SR request whether is sent, to guarantee normal data transmission between terminal and base station.

Fig. 3 is the structural schematic diagram of one embodiment of the present of invention terminal device, and the terminal device includes: selecting module 31 and determining module 32, in which:

Whether selecting module 31 according to the quantity of the HARQ-ACK bit for including and sends SR request, closes from multiple mappings Selection target mapping relations in system, the multiple mapping relations include: that the quantity of bit is 1 and sends SR (positive SR) The cyclic shift digit that the sequence of HARQ-ACK is carried when request is reflected with the first of the value state of the HARQ-ACK bit for including Relationship is penetrated, the quantity of bit is 1 and does not send the cyclic shift for carrying the sequence of HARQ-ACK when SR (negative SR) request When the second mapping relations, the quantity of bit of the value state for the bit that digit and HARQ-ACK include are 2 and send SR request The third mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK for carrying the sequence of HARQ-ACK include, The cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when the quantity of bit is 2 and does not send SR request Include in 4th mapping relations of the value state of bit, first mapping relations and/or second mapping relations follows Ring shift amount is different from the cyclic shift digit that the 4th mapping relations include；

Determining module 32, according to the value state of the HARQ-ACK bit for including and the target mapping relations, determination is held Carry the cyclic shift digit of the sequence of HARQ-ACK.

In one embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	4	10

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In a second embodiment of the present invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In third embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	2	8

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In the 4th embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In the 5th embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	2	5	8	11

；4th mapping relations are as follows:

In the 6th embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	10	4

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

Terminal device provided in an embodiment of the present invention can be realized each mistake that terminal is realized in the embodiment of the method for Fig. 1 Journey, to avoid repeating, which is not described herein again.The embodiment of the present invention by design the HARQ-ACK bit that includes quantity and whether Send SR request carrying HARQ-ACK sequence cyclic shift digit between mapping relations so that terminal to base station into When row HARQ-ACK is fed back, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is receiving It, can be based on the cyclic shift digit accurate judgement terminal with the presence or absence of leakage after the cyclic shift digit of the sequence used to terminal Whether inspection sends SR request, to guarantee normal data transmission between terminal and base station.

Fig. 4 is the structural schematic diagram of one embodiment of the present of invention network equipment, and the network equipment includes: receiving module 41, selecting module 42 and determining module 43, in which:

Receiving module 41 receives the sequence of carrying HARQ-ACK；

Selecting module 42, according to the quantity for the bit that terminal needs the HARQ-ACK reported to include, from multiple mappings Selection target mapping relations in relationship, the multiple mapping relations include: carrying when the quantity of bit is 1 and sends SR request First mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of HARQ-ACK include, bit Quantity sequence of carrying HARQ-ACK when being 1 and not sending SR request cyclic shift digit and the HARQ-ACK bit that includes The second mapping relations of value state, the circulation of the quantity of bit sequence of carrying HARQ-ACK when being 2 and sending SR request Third mapping relations, the quantity of bit of the value state for the bit that shift amount and HARQ-ACK include are 2 and do not send SR The cyclic shift digit that the sequence of HARQ-ACK is carried when request is reflected with the 4th of the value state of the HARQ-ACK bit for including Relationship is penetrated, the cyclic shift digit for including in first mapping relations and/or second mapping relations is reflected with the described 4th The cyclic shift digit that the relationship of penetrating includes is different；

Determining module 43 is closed according to the cyclic shift digit of the sequence of the carrying HARQ-ACK and target mapping System, determines whether the value state for the bit that HARQ-ACK includes and the terminal send SR request.

Optionally, the determining module 43 is also used to the value state for the bit for including according to HARQ-ACK, determine described in Reception state of the terminal to the data block.

In one embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	4	10

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In a second embodiment of the present invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	1	7

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In third embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	2	8

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In the 4th embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

In the 5th embodiment of the invention, first mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	3	9

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	0	6

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	2	5	8	11

；4th mapping relations are as follows:

In the 6th embodiment of the invention, first mapping relations are as follows:

；Second mapping relations are as follows:

The value state of bit	0	1
			The cyclic shift digit of sequence	10	4

；The third mapping relations are as follows:

The value state of bit	{ 0,0 }	{ 0,1 }	{ 1,1 }	{ 1,0 }
					The cyclic shift digit of sequence	1	4	7	10

；4th mapping relations are as follows:

Terminal device provided in an embodiment of the present invention can be realized each mistake that base station is realized in the embodiment of the method for Fig. 2 Journey, to avoid repeating, which is not described herein again.The embodiment of the present invention by design the HARQ-ACK bit that includes quantity and whether Send SR request carrying HARQ-ACK sequence cyclic shift digit between mapping relations so that terminal to base station into When row HARQ-ACK is fed back, the cyclic shift digit carrying HARQ-ACK of corresponding sequence can be used.In this way, base station is receiving It, can be based on the cyclic shift digit accurate judgement terminal with the presence or absence of leakage after the cyclic shift digit of the sequence used to terminal Whether inspection sends SR request, to guarantee normal data transmission between terminal and base station.

In the embodiment of the present invention, communication equipment may include: the network equipment and terminal device, when communication equipment sets for terminal When standby, as shown in figure 5, Fig. 5 is the structural schematic diagram of one embodiment of the present of invention terminal device.Mobile terminal shown in fig. 5 500 include: at least one processor 501, memory 502, at least one network interface 504 and user interface 503.Mobile terminal Various components in 500 are coupled by bus system 505.It is understood that bus system 505 for realizing these components it Between connection communication.Bus system 505 further includes power bus, control bus and status signal in addition to including data/address bus Bus.But for the sake of clear explanation, various buses are all designated as bus system 505 in Fig. 5.

Wherein, user interface 503 may include display, keyboard or pointing device (for example, mouse, trace ball (trackball), touch-sensitive plate or touch screen etc..

It is appreciated that the memory 502 in the embodiment of the present invention can be volatile memory or nonvolatile memory, It or may include both volatile and non-volatile memories.Wherein, nonvolatile memory can be read-only memory (Read- OnlyMemory, ROM), programmable read only memory (ProgrammableROM, PROM), Erasable Programmable Read Only Memory EPROM (ErasablePROM, EPROM), electrically erasable programmable read-only memory (ElectricallyEPROM, EEPROM) dodge It deposits.Volatile memory can be random access memory (RandomAccessMemory, RAM), and it is slow to be used as external high speed It deposits.By exemplary but be not restricted explanation, the RAM of many forms is available, such as static random access memory (StaticRAM, SRAM), dynamic random access memory (DynamicRAM, DRAM), Synchronous Dynamic Random Access Memory (SynchronousDRAM, SDRAM), double data speed synchronous dynamic RAM (DoubleDataRate SDRAM, DDRSDRAM), enhanced Synchronous Dynamic Random Access Memory (Enhanced SDRAM, ESDRAM), synchronized links Dynamic random access memory (SynchlinkDRAM, SLDRAM) and direct rambus random access memory (DirectRambusRAM, DRRAM).The memory 502 of the system and method for description of the embodiment of the present invention is intended to include but unlimited In the memory of these and any other suitable type.

In some embodiments, memory 502 stores following element, executable modules or data structures, or Their subset of person or their superset: operating system 5021 and application program 5022.

Wherein, operating system 5021 include various system programs, such as ccf layer, core library layer, driving layer etc., are used for Realize various basic businesses and the hardware based task of processing.Application program 5022 includes various application programs, such as media Player (MediaPlayer), browser (Browser) etc., for realizing various applied business.Realize embodiment of the present invention side The program of method may be embodied in application program 5022.

In embodiments of the present invention, terminal device 500 further include: storage on a memory 502 and can be on processor 501 The computer program of operation, computer program realize following steps when being executed by processor 501:

According to the quantity of the HARQ-ACK bit for including and whether send SR request, the selection target from multiple mapping relations Mapping relations, the multiple mapping relations include: that the quantity of bit is 1 and carries when sending SR (positive SR) request First mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of HARQ-ACK include, bit Quantity be 1 and do not send SR (negativeSR) request when carrying HARQ-ACK sequence cyclic shift digit and HARQ- The second mapping relations, the quantity of bit of the value state for the bit that ACK includes are 2 and carry HARQ-ACK when sending SR request The cyclic shift digit of sequence be with third mapping relations, the quantity of bit of the value state of the HARQ-ACK bit for including 2 and when not sending SR request the cyclic shift digit of the sequence of carrying HARQ-ACK and the HARQ-ACK bit that includes value shape The cyclic shift digit that includes in 4th mapping relations of state, first mapping relations and/or second mapping relations with The cyclic shift digit that 4th mapping relations include is different；

According to the value state of the HARQ-ACK bit for including and the target mapping relations, determine carrying HARQ-ACK's The cyclic shift digit of sequence.

The method that the embodiments of the present invention disclose can be applied in processor 501, or be realized by processor 501. Processor 501 may be a kind of IC chip, the processing capacity with signal.During realization, the above method it is each Step can be completed by the integrated logic circuit of the hardware in processor 501 or the instruction of software form.Above-mentioned processing Device 501 can be general processor, digital signal processor (DigitalSignalProcessor, DSP), specific integrated circuit (ApplicationSpecific IntegratedCircuit, ASIC), ready-made programmable gate array (FieldProgrammableGateArray, FPGA) either other programmable logic device, discrete gate or transistor logic Device, discrete hardware components.It may be implemented or execute disclosed each method, step and the logical box in the embodiment of the present invention Figure.General processor can be microprocessor or the processor is also possible to any conventional processor etc..In conjunction with the present invention The step of method disclosed in embodiment, can be embodied directly in hardware decoding processor and execute completion, or use decoding processor In hardware and software module combination execute completion.Software module can be located at random access memory, and flash memory, read-only memory can The computer readable storage medium of this fields such as program read-only memory or electrically erasable programmable memory, register maturation In.The computer readable storage medium is located at memory 502, and processor 501 reads the information in memory 502, hard in conjunction with it Part completes the step of above method.Specifically, computer program, computer program are stored on the computer readable storage medium Each step such as the above-mentioned embodiment of the method for being used for transmission HARQ-ACK is realized when being executed by processor 501.

It is understood that the embodiment of the present invention description these embodiments can with hardware, software, firmware, middleware, Microcode or combinations thereof is realized.For hardware realization, processing unit be may be implemented in one or more specific integrated circuits (ApplicationSpecificIntegratedCircuits, ASIC), digital signal processor (DigitalSignalProcessing, DSP), digital signal processing appts (DSPDevice, DSPD), programmable logic device (ProgrammableLogicDevice, PLD), field programmable gate array (Field-ProgrammableGateArray, FPGA), general processor, controller, microcontroller, microprocessor, other electronics lists for executing function of the present invention In member or combinations thereof.

For software implementations, can by execute the embodiment of the present invention described in function module (such as process, function etc.) come Realize technology described in the embodiment of the present invention.Software code is storable in memory and is executed by processor.Memory can With portion realizes in the processor or outside the processor.

Terminal device 500 can be realized each process that mobile terminal is realized in previous embodiment, to avoid repeating, here It repeats no more.

The embodiment of the present invention also proposed a kind of computer readable storage medium, the computer-readable recording medium storage one A or multiple programs, the one or more program include instruction, which holds when by the communication equipment including multiple application programs When row, the method that the communication equipment can be made to execute embodiment illustrated in fig. 1, and be specifically used for executing being used for transmission for above-mentioned record The step of method of HARQ-ACK.

When communication equipment is the network equipment, as shown in fig. 6, Fig. 6 is the knot of the network equipment provided in an embodiment of the present invention Structure schematic diagram, the entity apparatus structural schematic diagram of the network equipment 600 can as shown in fig. 6, include processor 602, memory 603, Transmitter 601 and receiver 604.In specific application, transmitter 601 and receiver 604 may be coupled to antenna 605.

Memory 603, for storing program.Specifically, program may include program code, and said program code includes meter Calculation machine operational order.Memory 603 may include read-only memory and random access memory, and refer to the offer of processor 602 Order and data.Memory 603 may include high speed RAM memory, it is also possible to further include nonvolatile memory (non- Volatile memory), for example, at least 1 magnetic disk storage.

Processor 602 executes the program that memory 603 is stored.

Specifically, in the network equipment 600, following methods are can be performed in processor 602:

Receive the sequence of carrying HARQ-ACK；

According to the quantity for the bit that terminal needs the HARQ-ACK reported to include, mesh is selected from multiple mapping relations Mapping relations are marked, the multiple mapping relations include: that the quantity of bit is 1 and sends the sequence for carrying HARQ-ACK when SR request Cyclic shift digit and the first mapping relations, the quantity of bit of value state of the HARQ-ACK bit that includes be 1 and not The value state for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when sending SR request Second mapping relations, the quantity of bit be 2 and send SR request when carrying HARQ-ACK sequence cyclic shift digit with Carrying when third mapping relations, the quantity of bit of the value state for the bit that HARQ-ACK includes are 2 and do not send SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of HARQ-ACK include, it is described The cyclic shift digit that includes in first mapping relations and/or second mapping relations and the 4th mapping relations include Cyclic shift digit is different；

According to the cyclic shift digit and the target mapping relations of the sequence of the carrying HARQ-ACK, HARQ- is determined Whether the value state and the terminal for the bit that ACK includes send SR request.

The method that the above-mentioned network equipment 600 as disclosed in embodiment illustrated in fig. 2 of the present invention executes can be applied to processor In 602, or realized by processor 602.Processor 602 may be a kind of IC chip, the processing capacity with signal. During realization, each step of the above method can pass through the integrated logic circuit or software of the hardware in processor 602 The instruction of form is completed.Above-mentioned processor 602 can be general processor, including central processing unit (Central Processing Unit, abbreviation CPU), network processing unit (Network Processor, abbreviation NP) etc.；It can also be number Signal processor (DSP), specific integrated circuit (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices Part, discrete gate or transistor logic, discrete hardware components.It may be implemented or execute the disclosure in the embodiment of the present invention Each method, step and logic diagram.General processor can be microprocessor or the processor is also possible to any routine Processor etc..The step of method in conjunction with disclosed in the embodiment of the present invention, can be embodied directly in hardware decoding processor execution Complete, or in decoding processor hardware and software module combine execute completion.Software module can be located at random storage Device, flash memory, read-only memory, this fields such as programmable read only memory or electrically erasable programmable memory, register at In ripe storage medium.The storage medium is located at memory 603, and processor 602 reads the information in memory 603, in conjunction with it Hardware completes the step of above method.

The network equipment can also carry out method shown in Fig. 2, and realize the function of network equipment embodiment shown in Fig. 2, this Details are not described herein for inventive embodiments.

The embodiment of the present invention also proposed a kind of computer readable storage medium, the computer-readable recording medium storage one A or multiple programs, the one or more program include instruction, which holds when by the communication equipment including multiple application programs When row, the method that the communication equipment can be made to execute embodiment illustrated in fig. 2, and be specifically used for executing being used for transmission for above-mentioned record The step of method of HARQ-ACK.

In short, the foregoing is merely illustrative of the preferred embodiments of the present invention, it is not intended to limit the scope of the present invention. All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in of the invention Within protection scope.

System, device, module or the unit that above-described embodiment illustrates can specifically realize by computer chip or entity, Or it is realized by the product with certain function.It is a kind of typically to realize that equipment is computer.Specifically, computer for example may be used Think personal computer, laptop computer, cellular phone, camera phone, smart phone, personal digital assistant, media play It is any in device, navigation equipment, electronic mail equipment, game console, tablet computer, wearable device or these equipment The combination of equipment.

Computer-readable medium includes permanent and non-permanent, removable and non-removable media can be by any method Or technology come realize information store.Information can be computer readable instructions, data structure, the module of program or other data. The example of the storage medium of computer includes, but are not limited to phase change memory (PRAM), static random access memory (SRAM), moves State random access memory (DRAM), other kinds of random access memory (RAM), read-only memory (ROM), electric erasable Programmable read only memory (EEPROM), flash memory or other memory techniques, read-only disc read only memory (CD-ROM) (CD-ROM), Digital versatile disc (DVD) or other optical storage, magnetic cassettes, tape magnetic disk storage or other magnetic storage devices Or any other non-transmission medium, can be used for storage can be accessed by a computing device information.As defined in this article, it calculates Machine readable medium does not include temporary computer readable media (transitorymedia), such as the data-signal and carrier wave of modulation.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a terminal (can be mobile phone, computer, service Device, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.

The embodiment of the present invention is described with above attached drawing, but the invention is not limited to above-mentioned specific Embodiment, the above mentioned embodiment is only schematical, rather than restrictive, those skilled in the art Under the inspiration of the present invention, without breaking away from the scope protected by the purposes and claims of the present invention, it can also make very much Form belongs within protection of the invention.

Claims (21)

1. a kind of method for being used for transmission HARQ-ACK is applied to terminal device characterized by comprising

According to the quantity of the HARQ-ACK bit for including and SR request whether is sent, selection target maps from multiple mapping relations Relationship, the multiple mapping relations include it is following at least one: the quantity of bit be 1 and send SR request when carry First mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of HARQ-ACK include, bit Quantity sequence of carrying HARQ-ACK when being 1 and not sending SR request cyclic shift digit and the HARQ-ACK bit that includes The second mapping relations of value state, the circulation of the quantity of bit sequence of carrying HARQ-ACK when being 2 and sending SR request Third mapping relations, the quantity of bit of the value state for the bit that shift amount and HARQ-ACK include are 2 and do not send SR The cyclic shift digit that the sequence of HARQ-ACK is carried when request is reflected with the 4th of the value state of the HARQ-ACK bit for including Penetrate relationship；

According to the target mapping relations, the cyclic shift digit of the sequence of carrying HARQ-ACK is determined.

2. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 10 4

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

3. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 4 10

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

4. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

5. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 2 8

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

6. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 3 9

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

7. the method as described in claim 1, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 3 9

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 2 5 8 11

；4th mapping relations are as follows:

8. a kind of method for being used for transmission HARQ-ACK is applied to the network equipment characterized by comprising

Receive the sequence of carrying HARQ-ACK；

According to the quantity for the bit that terminal needs the HARQ-ACK reported to include, selection target mapping is closed from multiple mapping relations System, the multiple mapping relations include it is following at least one: the quantity of bit be 1 and send SR request when carry HARQ- The cyclic shift digit of the sequence of ACK and the first mapping relations of the value state of the HARQ-ACK bit for including, the number of bit Amount is 1 and does not send the cyclic shift digit of sequence and taking for the HARQ-ACK bit for including for carrying HARQ-ACK when SR request The cyclic shift of the sequence of carrying HARQ-ACK when the second mapping relations, the quantity of bit of state of value are 2 and send SR request Third mapping relations, the quantity of bit of the value state for the bit that digit and HARQ-ACK include are 2 and do not send SR request When carrying HARQ-ACK the cyclic shift digit of sequence and the 4th mapping of value state of the HARQ-ACK bit that includes close System；

According to the target mapping relations, determine whether the value state for the bit that HARQ-ACK includes and the terminal send SR Request.

9. method according to claim 8, which is characterized in that the method also includes:

According to the value state of the HARQ-ACK bit for including, determine the terminal to the reception state of the data block.

10. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 10 4

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

11. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 4 10

；The third mapping relations are as follows:

；4th mapping relations are as follows:

12. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 1 7

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

13. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 2 8

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

；4th mapping relations are as follows:

14. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 3 9

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

The value state of bit { 0,0 } { 0,1 } { 1,1 } { 1,0 } The cyclic shift digit of sequence 1 4 7 10

；4th mapping relations are as follows:

15. method according to claim 8, which is characterized in that

First mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 3 9

；Second mapping relations are as follows:

The value state of bit 0 1 The cyclic shift digit of sequence 0 6

；The third mapping relations are as follows:

；4th mapping relations are as follows:

16. a kind of terminal device characterized by comprising

Whether selecting module according to the quantity of the HARQ-ACK bit for including and sends SR request, selects from multiple mapping relations Target mapping relations are selected, the multiple mapping relations include: that the quantity of bit is 1 and carries HARQ-ACK when sending SR request The first mapping relations, the quantity of bit of the value state for the bit that the cyclic shift digit and HARQ-ACK of sequence include are 1 And the value shape for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when not sending SR request The cyclic shift digit of the sequence of carrying HARQ-ACK when the second mapping relations, the quantity of bit of state are 2 and send SR request Third mapping relations, the quantity of bit with the value state of the HARQ-ACK bit for including are 2 and hold when not sending SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK for carrying the sequence of HARQ-ACK include；

Determining module determines carrying HARQ- according to the value state of the HARQ-ACK bit for including and the target mapping relations The cyclic shift digit of the sequence of ACK.

17. a kind of network equipment characterized by comprising

Receiving module receives the sequence of carrying HARQ-ACK；

Selecting module is selected from multiple mapping relations according to the quantity for the bit that terminal needs the HARQ-ACK reported to include Target mapping relations, the multiple mapping relations include: that the quantity of bit is 1 and sends the sequence for carrying HARQ-ACK when SR request The first mapping relations, the quantity of bit of the value state for the bit that the cyclic shift digits of column and HARQ-ACK include be 1 and The value state for the bit that the cyclic shift digit of the sequence of carrying HARQ-ACK and HARQ-ACK include when not sending SR request The second mapping relations, the quantity of bit be 2 and send SR request when carrying HARQ-ACK sequence cyclic shift digit with Carrying when third mapping relations, the quantity of bit of the value state for the bit that HARQ-ACK includes are 2 and do not send SR request 4th mapping relations of the value state for the bit that the cyclic shift digit and HARQ-ACK of the sequence of HARQ-ACK include, it is described The cyclic shift digit that includes in first mapping relations and/or second mapping relations and the 4th mapping relations include Cyclic shift digit is different；

Determining module is determined according to the cyclic shift digit and the target mapping relations of the sequence of the carrying HARQ-ACK Whether the value state and the terminal for the bit that HARQ-ACK includes send SR request.

18. a kind of terminal device characterized by comprising memory, processor and be stored on the memory and can be in institute The computer program run on processor is stated, such as claim 1 to 7 is realized when the computer program is executed by the processor Any one of described in method the step of.

19. a kind of network equipment characterized by comprising memory, processor and be stored on the memory and can be in institute State the computer program run on processor, when the computer program is executed by the processor realize as claim 8 to The step of method described in any one of 15.

20. a kind of computer readable storage medium, which is characterized in that be stored with computer on the computer readable storage medium Program, the step of method as described in any one of claims 1 to 7 is realized when the computer program is executed by processor.

21. a kind of computer readable storage medium, which is characterized in that be stored with computer on the computer readable storage medium Program, the step of method as described in any one of claim 8 to 15 is realized when the computer program is executed by processor.