CN110351016A - The transmission method and device of Downlink Control Information - Google Patents

Abstract

The present invention provides the transmission method and device of a kind of Downlink Control Information.The described method includes: receiving the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；The quantity of the DCI received is determined according to the DAI；Wherein, the DAI is with { cell, downlink HARQ-ACK feed back the PDCCH in downlink HARQ feedback window associated by the moment and monitor the moment } to the stored count of instruction DCI and the total quantity of DCI.The present invention can guarantee base station and the consistency that user terminal UE understands HARQ-ACK, and the number of bits of feedback of HARQ-ACK when reducing across timeslot scheduling, so as to save uplink resource.

Description

The transmission method and device of Downlink Control Information

Technical field

The present invention relates to field of communication technology more particularly to the transmission methods and device of a kind of Downlink Control Information.

Background technique

In LTE TDD system, the HARQ-ACK of the data of multiple downlink subframes may be carried out in the same sub-frame of uplink Feedback can be to Downlink Control Information DCI (Downlink Control using dynamic HARQ-ACK code book Information it) is counted, and then determines the HARQ-ACK bit number of feedback.One physical down link of DCI scheduling is total Enjoying channel PDSCH may include a transmission block TB (Transport Block), it is also possible to include 2 TB, respectively correspond 1 HARQ-ACK bit and 2 HARQ-ACK bits.In LTE TDD system, when certain downlink DCI in HARQ feedback window lose When mistake, UE may mistakenly feed back HARQ-ACK, in order to solve this problem, downlink distribution index DAI be introduced in DCI (Downlink Assignment Index), for being counted to DCI with inform UE in HARQ feedback window how many Subframe includes downlink transfer.Wherein comprising counting DAI (Counter DAI, abbreviation C-DAI) and total DAI in the domain DAI of DCI (Total DAI, abbreviation T-DAI) is ranked up DCI by counting DAI, the quantity of DCI is determined by total DAI.Wherein, it counts Number DAI and total DAI is indicated with 2 bits, and the DAI definition and indicating mode in agreement are as shown in table 1.

Table 1

It is multiplexed identical 2 bit DAI's by way of mould 4 when counting numerical value expressed by DAI and total DAI and being more than 4 State is indicated that therefore, what UE can judge to indicate at this time according to the DAI value received is which of multiple numerical value Value, such as UE are received and are counted DAI=1 and total DAI=1, and UE has been received that 4 DCI before the data packet, then recognizes It is 5 to count the numerical value of DAI and total DAI instruction at this time.

As shown in Figure 1, the schematic diagram of the descending scheduling time instruction for DCI, the unit of K0, K1 are all time slots, K0 is indicated The time interval of physical down link sharing channel PDSCH and physical downlink control channel PDCCH (DCI), K1 are indicated The time interval at HARQ-ACK feedback moment and PDSCH.

In (New Radio, NR) system of newly eating dishes without rice or wine, due to that can there is multiple PDCCH to monitor in a downlink subframe Moment, and NR system supports the DAI for leading to LTE system across timeslot scheduling is defined can not be completely suitable for NR system, therefore In NR system, by DAI define in { cell, subframe } it is right to { cell, PDCCH monitor moment } has been substituted for, such as 2 institute of table Show, is DAI definition and the indicating mode in NR system.

Table 2

In NR system, for the cell of the same physical uplink control channel PUCCH group, PDCCH monitors the moment Collection be combined into each cell PDCCH and monitor moment union of sets collection.

As shown in Fig. 2, cell 0 is identical with the configuration of cell 1, i.e., base station is by the value that high-level signaling configures cell K1 { 1,2,3,4,5,6,7,8 }, the value of K0 are { 0,1,2 }.The each time slot of PDCCH is monitored once, positioned at first 2 of each slot OFDM symbol.The PDSCH of DCI scheduling only includes a TB, and cell does not configure code block group CBG (Code Block Group) biography Defeated, corresponding each PDSCH only needs to feed back HARQ-ACK with 1 bit.

Since NR is introduced across timeslot scheduling, cell 1 scheduled the PDSCH of a time slot n+1 in time slot n-1, the PDSCH It feeds back in time slot n+2, is defined according to the DAI in current NR system, which can contribute in DAI, as shown in table 3.

Table 3

PDCCH monitors the OFDM symbol 0 ... for corresponding to time slot n-10 at the moment 0, and PDCCH monitors the corresponding time slot n-3 of moment 7 OFDM symbol 0, PDCCH monitors the OFDM symbol 0 of the corresponding time slot n-2 of moment 8, and PDCCH monitors the corresponding time slot n-1's of moment 9 OFDM symbol 0.

It is needed according to total DAI=3 that the PDCCH monitoring moment receives, UE to 3 bit feedback HARQ-ACK, and actually Since cell 1 scheduled in time slot n-1 the PDSCH of a time slot n+1, which feeds back in time slot n+2, can't be in time slot n It is fed back, therefore only needs to carry out cell 0 in the PDSCH that time slot n-2 is dispatched in the time slot n-1 PDSCH dispatched and cell 1 Feedback, that is, need 2 HARQ-ACK bits.

Cause the DCI institute arrived in identical PDCCH monitoring reception right across timeslot scheduling it can be seen that NR system is introduced The HARQ-ACK answered may be transmitted in different HARQ feedback windows, this allows for determining according to DAI in current NR system Justice will cause the waste of uplink resource.

Summary of the invention

The transmission method and device of Downlink Control Information provided by the invention, can guarantee base station and UE pairs of user terminal HARQ-ACK understand consistency, and reduce across timeslot scheduling when HARQ-ACK number of bits of feedback, so as to save Uplink resource.

In a first aspect, the present invention provides a kind of transmission method of Downlink Control Information, comprising:

Receive the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；

The quantity of the DCI received is determined according to the DAI；

Wherein, the DAI is with { cell, downlink HARQ-ACK are fed back in downlink HARQ feedback window associated by the moment PDCCH monitors the moment } to the stored count of instruction DCI and the total quantity of DCI.

Second aspect, the present invention provides a kind of in a first aspect, the present invention provides device, comprising:

Receiving module receives the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；

Determining module determines the quantity of the DCI received according to the DAI；

Wherein, the DAI is with { cell, downlink HARQ-ACK are fed back in downlink HARQ feedback window associated by the moment PDCCH monitors the moment } to the stored count of instruction DCI and the total quantity of DCI.

The transmission method and device of Downlink Control Information provided in an embodiment of the present invention receive the carrying downlink that base station is sent The Downlink Control Information DCI of link distribution index DAI；The quantity of the DCI received is determined according to the DAI；Wherein, described DAI is with { cell, downlink HARQ-ACK feed back the PDCCH in downlink HARQ feedback window associated by the moment and monitor the moment } to finger Show the stored count of DCI and the total quantity of DCI.Compared with prior art, the present invention monitors reception for identical PDCCH and arrives DCI, the feedback moment of the HARQ-ACK according to corresponding to DCI counted respectively, in this way, on the one hand can guarantee base station and The consistency that user terminal UE understands HARQ-ACK, the feedback of HARQ-ACK when on the other hand can reduce across timeslot scheduling Bit number, so as to save uplink resource.

Detailed description of the invention

The schematic diagram that the descending scheduling time that Fig. 1 is DCI indicates；

Fig. 2 is that DCI dispatches data and illustrates schematic diagram in NR system；

Fig. 3 is the flow chart of the transmission method of one embodiment of the invention Downlink Control Information；

Fig. 4 is the structural schematic diagram of the transmitting device of one embodiment of the invention Downlink Control Information.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only It is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

The present invention provides a kind of transmission method of Downlink Control Information, as shown in Figure 3, comprising:

S11, the Downlink Control Information DCI for receiving the carrying downlink distribution index DAI that base station is sent.

S12, the quantity that the DCI received is determined according to the DAI.

Wherein, the DAI is with { cell, downlink HARQ-ACK are fed back in downlink HARQ feedback window associated by the moment PDCCH monitors the moment } to the stored count of instruction DCI and the total quantity of DCI.

The transmission method of Downlink Control Information provided in an embodiment of the present invention, compared with prior art, the present invention are directed to phase The DCI that reception arrives is monitored with PDCCH, the feedback moment of the HARQ-ACK according to corresponding to DCI is counted respectively, this On the one hand sample can guarantee the consistency that base station and user terminal UE understand HARQ-ACK, on the other hand can reduce across when The number of bits of feedback of HARQ-ACK when gap is dispatched, so as to save uplink resource.

Optionally, the DAI includes counting DAI and total DAI.

Specifically, total DAI is that a downlink HARQ-ACK is fed back in downlink HARQ feedback window associated by the moment The total quantity of the DCI of all cells at moment to current PDCCH monitoring moment is monitored from first PDCCH；

The DAI that counts is that the downlink HARQ-ACK feeds back working as in downlink HARQ feedback window associated by the moment When the accumulated counts that preceding PDCCH monitors the DCI in the moment from first cell to current area are monitored plus the current PDCCH The previous PDCCH carved monitors total DAI at moment.

Wherein, time slot n, the PDCCH are monitored PDCCH associated by the moment to monitor section is time slot [n-K1_max- K0_max, n-K1_min-K0_min], wherein K0_maxAnd K0_minRespectively indicate K0 set in the time-domain resource allocation table of high-level signaling configuration Maximum value and minimum value, K1_maxAnd K1_minRespectively indicate the time interval K1 collection at downlink HARQ-ACK feedback moment and PDSCH The maximum value and minimum value of conjunction, n are downlink HARQ-ACK feedback slot.For time slot n, when the downlink HARQ feedback window is Gap [n-K1_max, n-K1_min]。

In order to understand the present invention in further detail, the specific embodiment of the value of DAI in the present invention is provided.

Embodiment one

As shown in Fig. 2, cell 0 is identical with the configuration of cell 1, i.e., base station is by the value that high-level signaling configures cell K1 { 1,2,3,4,5,6,7,8 }, the value of K0 are { 0,1,2 }.The each time slot of PDCCH is monitored once, positioned at first 2 of each slot OFDM symbol.The PDSCH of DCI scheduling only includes a TB, and cell does not configure code block group CBG (Code Block Group) biography Defeated, corresponding each PDSCH only needs to feed back HARQ-ACK with 1 bit.

As shown in Figure 2, cell 0 scheduled the PDSCH of a time slot n-1 in time slot n-1, which feeds back in time slot n； Cell 1 scheduled the PDSCH of a time slot n-2 in time slot n-3, which feeds back in time slot n；Cell 1 is in the base station time slot n-1 It scheduled the PDSCH of a time slot n+1, which feeds back in time slot n+2, and the DAI definition provided according to the present invention, DAI's takes It is worth situation, as shown in table 4.

Table 4

PDCCH according to the present invention monitors the definition in section it is found that it is time slot that the PDCCH in the present embodiment, which monitors section, N-10 (i.e. n-2-8) arrives time slot n-1 (i.e. n-0-1).Downlink HARQ feedback window is time slot n-8 to time slot n-1, for time slot n The HARQ-ACK of feedback, base station can be in the PDSCH (K0=2), time slot n-8 to time slot of one time slot n-8 of time slot n-10 scheduling The PDSCH of n-1 can feed back HARQ-ACK in time slot n.UE determines the DCI or instruction SPS of scheduling PDSCH according to DAI The quantity of the DCI of (Semi-Persistent Scheduling, semi-persistent scheduling) release.

PDCCH monitors the OFDM symbol 0 ... for corresponding to time slot n-10 at the moment 0, and PDCCH monitors the corresponding time slot n-3 of moment 7 OFDM symbol 0, PDCCH monitors the OFDM symbol 0 of the corresponding time slot n-2 of moment 8, and PDCCH monitors the corresponding time slot n-1's of moment 9 OFDM symbol 0.

UE determines the HARQ-ACK bit number of feedback according to total DAI that the moment 9 receives is monitored in PDCCH, supervises in PDCCH It listens the moment 9, UE has received DAI entrained by 2 DCI, and being respectively as follows: the DAI of cell 0 is corresponding in time slot n feedback HARQ- The DAI of ACK, the DAI of cell 1 are the DAI in corresponding time slot n+2 feedback HARQ-ACK.Due to each PDSCH with a bit into Row is fed back, and in the present embodiment, needs the HARQ-ACK with 2 bit feedbacks in time slot n, UE, wherein first bit corresponds to small The PDSCH of the scheduling of moment 7 is monitored in area 1 in PDCCH, and what the moment 9 dispatched monitored in PDCCH in second bit respective cell 0 PDSCH。

It can be seen that compared with prior art, the present invention only needs the HARQ-ACK of 2 bit feedbacks, in this way, on the one hand It can guarantee base station and the consistency that user terminal UE understands HARQ-ACK, on the other hand can save uplink resource.

Embodiment two

Cell 0 is configured that subcarrier spacing SCS is 15kHz, and base station is by the value that high-level signaling configures cell K1 { 1,2,3,4,5,6,7,8 }, the value of K0 are { 0 }, and each time slot of PDCCH is monitored once, positioned at preceding 2 OFDM of each slot Symbol.The PDSCH of DCI scheduling only includes a TB, and cell does not configure CBG transmission, and corresponding each PDSCH is only needed with 1 ratio Spy's feedback HARQ-ACK.Cell 0 has had activated downlink SPS transmission, and the monitoring section of PDCCH is time slot n-8 to time slot n-1.

Cell 1 is configured that subcarrier spacing SCS is 15kHz, and base station is by the value that high-level signaling configures cell K1 { 1,2,3,4,5,6,7,8 }, the value of K0 are { 0,1,2 }, and each time slot of PDCCH is monitored once, positioned at first 2 of each slot OFDM symbol.The PDSCH of DCI scheduling only includes a TB, and cell does not configure CBG transmission, and corresponding each PDSCH only needs to use 1 bit feedback HARQ-ACK.For the HARQ-ACK of time slot n feedback, base station can dispatch a time slot n-8's in time slot n-10 The PDSCH of PDSCH (K0=2), time slot n-8 to time slot n-1 can be fed back in time slot n, therefore when the monitoring section of PDCCH is Gap n-10 to time slot n-1.

The monitoring moment of PDCCH takes union for the monitoring moment of the PDCCH of cell 0 PDCCH for monitoring moment and cell 1, That is the OFDM symbol 0 of time slot n-10 to time slot n-1.PDCCH monitors the OFDM symbol 0 ... for corresponding to time slot n-10 at the moment 0, PDCCH monitors the OFDM symbol 0 of the corresponding n-2 of moment 8, and PDCCH monitors the OFDM symbol 0 of the corresponding n-1 of moment 9.

Cell 0 receives a DCI instruction SPS release in time slot n-6, and receiving a DCI in time slot n-5 scheduled time slot n- 5 PDSCH, receiving a DCI in time slot n-4 scheduled the PDSCH of time slot n-4.

Cell 1, which receives a DCI in time slot n-6, scheduled the PDSCH of time slot n-4.A DCI tune is received in time slot n-5 The PDSCH of time slot n-3 is spent.Receiving a DCI in time slot n-1 scheduled the PDSCH of time slot n+1.

DAI definition according to the present invention, the value condition of DAI, as shown in table 5.

Table 5

PDCCH monitors the corresponding time slot n-6 of moment 4, shares 2 DCI at this time, and total DAI is that 2, the PDCCH monitoring moment 5 is corresponding Time slot n-5 shares 2 DCI at this time, in addition the PDCCH of front monitors the DCI quantity at moment, when total DAI is that 4, PDCCH is monitored 6 corresponding time slot n-4 are carved, share 1 DCI at this time, in addition the PDCCH of front monitors the DCI quantity at moment totally 5 DCI, according to table 2, total DAI are 1.The DAI is the last one DAI that UE is arrived in time slot n feedback reception, and UE is determined according to total DAI in time slot n The bit number for feeding back HARQ-ACK is 5 bits.

The embodiment of the present invention also provides a kind of transmitting device of Downlink Control Information, as shown in Figure 4, comprising:

Receiving module receives the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；

Determining module determines the quantity of the DCI received according to the DAI；

Wherein, the DAI is with { cell, downlink HARQ-ACK are fed back in downlink HARQ feedback window associated by the moment PDCCH monitors the moment } to the stored count of instruction DCI and the total quantity of DCI.

The transmitting device of Downlink Control Information provided in an embodiment of the present invention, compared with prior art, the present invention are directed to phase The DCI that reception arrives is monitored with PDCCH, the feedback moment of the HARQ-ACK according to corresponding to DCI is counted respectively, this On the one hand sample can guarantee the consistency that base station and user terminal UE understand HARQ-ACK, on the other hand can reduce across when The number of bits of feedback of HARQ-ACK when gap is dispatched, so as to save uplink resource.

Optionally, the DAI includes counting DAI and total DAI.

Specifically, total DAI is that a downlink HARQ-ACK is fed back in downlink HARQ feedback window associated by the moment The total quantity of the DCI of all cells at moment to current PDCCH monitoring moment is monitored from first PDCCH；

The DAI that counts is that the downlink HARQ-ACK feeds back working as in downlink HARQ feedback window associated by the moment When the accumulated counts that preceding PDCCH monitors the DCI in the moment from first cell to current area are monitored plus the current PDCCH The previous PDCCH carved monitors total DAI at moment.

Wherein, time slot n, the PDCCH are monitored PDCCH associated by the moment to monitor section is time slot [n-K1_max- K0_max, n-K1_min-K0_min], wherein K0_maxAnd K0_minRespectively indicate K0 set in the time-domain resource allocation table of high-level signaling configuration Maximum value and minimum value, K1_maxAnd K1_minRespectively indicate the time interval K1 collection at downlink HARQ-ACK feedback moment and PDSCH The maximum value and minimum value of conjunction, n are downlink HARQ-ACK feedback slot.For time slot n, when the downlink HARQ feedback window is Gap [n-K1_max, n-K1_min]。

Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with Relevant hardware is instructed to complete by computer program, the program can be stored in a computer-readable storage medium In, the program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, the storage medium can be magnetic Dish, CD, read-only memory (Read-Only Memory, ROM) or random access memory (Random Access Memory, RAM) etc..

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those familiar with the art, all answers It is included within the scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (8)

1. a kind of transmission method of Downlink Control Information characterized by comprising

Receive the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；

The quantity of the DCI received is determined according to the DAI；

Wherein, the DAI is with { cell, downlink HARQ-ACK feed back the PDCCH in downlink HARQ feedback window associated by the moment Monitor the moment } to the stored count of instruction DCI and the total quantity of DCI.

2. the method according to claim 1, wherein the DAI includes counting DAI and total DAI.

3. according to the method described in claim 2, it is characterized in that, total DAI feeds back moment institute for a downlink HARQ-ACK All cells that the moment to current PDCCH monitoring moment is monitored from first PDCCH in associated downlink HARQ feedback window DCI total quantity；

The DAI that counts is current in downlink HARQ feedback window associated by the downlink HARQ-ACK feedback moment PDCCH is monitored in the moment and is monitored the moment plus the current PDCCH from first cell to the accumulated counts of the DCI of current area Previous PDCCH monitor the moment total DAI.

4. the method according to claim 1, wherein the PDCCH, which monitors PDCCH associated by the moment, monitors area Between be time slot [n-K1_max-K0_max, n-K1_min-K0_min], wherein K0_maxAnd K0_minRespectively indicate the time domain money of high-level signaling configuration The maximum value and minimum value that K0 gathers in the allocation table of source, K1_maxAnd K1_minRespectively indicate downlink HARQ-ACK feedback the moment with The maximum value and minimum value of the time interval K1 set of PDSCH, n are downlink HARQ-ACK feedback slot.

5. a kind of transmitting device of Downlink Control Information characterized by comprising

Receiving module receives the Downlink Control Information DCI for the carrying downlink distribution index DAI that base station is sent；

Determining module determines the quantity of the DCI received according to the DAI；

Wherein, the DAI is with { cell, downlink HARQ-ACK feed back the PDCCH in downlink HARQ feedback window associated by the moment Monitor the moment } to the stored count of instruction DCI and the total quantity of DCI.

6. device according to claim 5, which is characterized in that the DAI includes counting DAI and total DAI.

7. device according to claim 6, which is characterized in that total DAI feeds back moment institute for a downlink HARQ-ACK All cells that the moment to current PDCCH monitoring moment is monitored from first PDCCH in associated downlink HARQ feedback window DCI total quantity；

The DAI that counts is current in downlink HARQ feedback window associated by the downlink HARQ-ACK feedback moment PDCCH is monitored in the moment and is monitored the moment plus the current PDCCH from first cell to the accumulated counts of the DCI of current area Previous PDCCH monitor the moment total DAI.

8. device according to claim 5, which is characterized in that the PDCCH monitors PDCCH associated by the moment and monitors area Between be time slot [n-K1_max-K0_max, n-K1_min-K0_min], wherein K0_maxAnd K0_minRespectively indicate the time domain money of high-level signaling configuration The maximum value and minimum value that K0 gathers in the allocation table of source, K1_maxAnd K1_minRespectively indicate downlink HARQ-ACK feedback the moment with The maximum value and minimum value of the time interval K1 set of PDSCH, n are downlink HARQ-ACK feedback slot.