CN110035561A - The method and apparatus of wireless communication - Google Patents

Abstract

The method and apparatus that the embodiment of the present invention discloses a kind of wireless communication, method includes: the RMSI for receiving the network equipment and sending, wherein, the reserved bit in RMSI is used to indicate the following at least one of PUCCH resource or PUCCH resource set: whether PUCCH resource supports frequency hopping between time slot；Whether PUCCH resource supports the frequency hopping in time slot；Whether PUCCH resource supports the transmission of multiple time slots, and the frequency hopping between multiple time slots is supported when supporting the transmission of multiple time slots, does not support the frequency hopping between multiple time slots when not supporting the transmission of multiple time slots；Number of time slot when PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between multiple time slots, for PUCCH transmission；The format that PUCCH resource uses；PUCCH resource transmits the number of symbols used；According to the reserved bit in RMSI, PUCCH resource is determined；PUCCH is sent in PUCCH resource.The method of the embodiment of the present invention, to solve the problems, such as that subscriber terminal equipment in the prior art and the network equipment reliability in physical layer interactive process are poor.

Description

The method and apparatus of wireless communication

Technical field

The present invention relates to fields of communication technology, relate more specifically to a kind of method and apparatus of wireless communication.

Background technique

In existing communication system, due to physical uplink control channel (Physical Uplink Control Channel, PUCCH) configuration be to establish wireless heterogeneous networks (Radio Resource in base station and subscriber terminal equipment Control, RRC) connection after, subscriber terminal equipment is allocated to by base station.Thus when RRC configuration not yet reaches user terminal Before equipment, since subscriber terminal equipment can not determine the resource location of the PUCCH used, subscriber terminal equipment is also resulted in Upstream control signaling transmission can not just be carried out.

It is completed it can be seen that only all being established when connections all between subscriber terminal equipment and base station in the prior art Afterwards, subscriber terminal equipment can just determine the PUCCH resource used, and then subscriber terminal equipment can carry out upstream control signaling Transmission, and confirmation character (Acknowledgement, ACK) is sent with signals base to base station simultaneously, subscriber terminal equipment is connect The signaling confirmation message received.

In this case, it is assumed that subscriber terminal equipment does not receive certain signalings of base station transmission for some reason, Then subscriber terminal equipment and base station all can only be after the completion of all connections be all established just it was determined that so as to cause at user's end Connection between end equipment and base station is established before completion, and the stability of physical layer interactive process is poor.

Summary of the invention

The purpose of the embodiment of the present invention is that providing a kind of method and apparatus of wireless communication, user terminal is set in the prior art The standby and network equipment poor problem of reliability in physical layer interactive process.

In a first aspect, providing a kind of method of wireless communication, it is applied to terminal device, this method comprises:

Receive the broadcast message RMSI that the network equipment is sent, wherein the reserved bit in the RMSI is used to indicate PUCCH Following at least one information of resource or PUCCH resource set:

Whether the PUCCH resource supports the frequency hopping between time slot；

Whether the PUCCH resource supports the frequency hopping in time slot；

Whether the PUCCH resource supports the transmission of multiple time slots, and supports when supporting the transmission of multiple time slots Frequency hopping between the multiple time slot does not support the frequency hopping between the multiple time slot when not supporting the transmission of multiple time slots；

When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, use In the number of time slot of PUCCH transmission；

The transformat that the PUCCH resource uses；

The PUCCH resource transmits the number of symbols used；

According to the reserved bit in the RMSI, the PUCCH resource is determined；

PUCCH is sent in the PUCCH resource.

Second aspect provides a kind of method of wireless communication, is applied to the network equipment, this method comprises: sending broadcast Information RMSI, wherein the reserved bit in the RMSI be used to indicate PUCCH resource or PUCCH resource set it is following at least A kind of information:

The PUCCH resource whether support frequency hopping between time slot,

The PUCCH resource whether support frequency hopping in time slot,

Whether the PUCCH resource supports the transmission of multiple time slots, and supports when supporting the transmission of multiple time slots Frequency hopping between the multiple time slot does not support the frequency hopping between the multiple time slot when not supporting the transmission of multiple time slots；

When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, use In the number of time slot of PUCCH transmission；

Indicate the transformat that the PUCCH resource uses；

Indicate that the PUCCH resource transmits the number of symbols used；

PUCCH is received in the PUCCH resource.

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

Receiving module, for receiving the broadcast message RMSI of network equipment transmission, wherein the reserved bit in the RMSI Be used to indicate following at least one information of PUCCH resource or PUCCH resource set: whether the PUCCH resource supports time slot Between frequency hopping；Whether the PUCCH resource supports the frequency hopping in time slot；Whether the PUCCH resource supports the biography of multiple time slots It is defeated, and frequency hopping of the support between the multiple time slot when supporting the transmission of multiple time slots, when the biography for not supporting multiple time slots The frequency hopping between the multiple time slot is not supported when defeated；When the PUCCH resource supports the transmission of multiple time slots and supports Number of time slot when frequency hopping between the multiple time slot, for PUCCH transmission；The transformat that the PUCCH resource uses；Institute It states PUCCH resource and transmits the number of symbols used；

Determining module, for determining the PUCCH resource according to the reserved bit in the RMSI；

Sending module, for sending PUCCH in the PUCCH resource.

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

Sending module, for sending broadcast message RMSI, wherein the reserved bit in the RMSI is used to indicate PUCCH Following at least one information of resource or PUCCH resource set: whether the PUCCH resource supports the frequency hopping between time slot；It is described Whether PUCCH resource supports the frequency hopping in time slot；Whether the PUCCH resource supports the transmission of multiple time slots, and when support The frequency hopping between the multiple time slot is supported when the transmission of multiple time slots, is not supported when not supporting the transmission of multiple time slots in institute State the frequency hopping between multiple time slots；When the PUCCH resource supports the transmission of multiple time slots and supports between the multiple time slot Frequency hopping when, for PUCCH transmission number of time slot；Indicate the transformat that the PUCCH resource uses；Described in instruction PUCCH resource transmits the number of symbols used；

Receiving module, for receiving PUCCH in the PUCCH resource.

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 of wireless communication 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 of wireless communication 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 wireless communication as described in relation to the first aspect is realized when the computer program is executed by processor The step of method.

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, the wireless communication as described in second aspect is realized when the computer program is executed by processor The step of method

The embodiment of the present invention improves the reliable of physical layer interactive process between subscriber terminal equipment and the network equipment Property.

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 schematic flow chart of the method for wireless communication according to an embodiment of the invention；

Fig. 2 is a kind of schematic flow chart of the random access procedure of competition；

Fig. 3 is a kind of schematic flow chart of non-competing random access procedure；

Fig. 4 is the schematic flow chart of the method for wireless communication according to another embodiment of the invention；

Fig. 5 is the structural schematic diagram of terminal device according to an embodiment of the invention；

Fig. 6 is the structural schematic diagram of the network equipment according to an embodiment of the invention；

Fig. 7 is the structural schematic diagram of terminal device according to another embodiment of the invention；

Fig. 8 is the structural schematic diagram of the network equipment according to another embodiment of the invention.

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.

Technical solution of the present invention can be applied to various communication systems, such as: global system for mobile communications (Global System of Mobile communication, GSM), CDMA (Code Division Multiple Access, CDMA) system, wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) system are general Packet wireless business (General Packet Radio Service, GPRS) system, long term evolution (Long Term Evolution, LTE)/enhancing long term evolution (Long Term Evolution-advanced, LTE-A) system, narrowband Internet of Things Net (Narrow Band Internet of Things, NB-IoT) system, machine type communication (Machine-Type Communication, MTC) system, new wireless (New Radio, NR) system etc..

Terminal device (User Equipment, UE), also referred to as mobile terminal (Mobile Terminal), movement User equipment etc., can be through wireless access network (for example, Radio Access Network, RAN) and one or more core nets It is communicated, user equipment can be mobile terminal, such as mobile phone (or being " honeycomb " phone) and with mobile terminal Computer, for example, it may be portable, pocket, hand-held, built-in computer or vehicle-mounted mobile device, they with Wireless access network exchanges language and/or data.

The network equipment be it is a kind of be deployed in wireless access network set in for as terminal device providing the dress of wireless communication function It sets, the network equipment can be base station, and the base station can be base station (the Base Transceiver in GSM or CDMA Station, BTS), it is also possible to the base station (NodeB) in WCDMA, can also be evolved base station (eNB or e- in LTE NodeB, evolutional Node B) and the base station 5G (gNB).

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

Fig. 1 shows the method for wireless communication according to an embodiment of the invention.As shown in Figure 1, method 100 includes:

S110 receives the broadcast message remaining system information RMSI that the network equipment is sent.

Wherein, the reserved bit in RMSI described in the RMSI is used to indicate PUCCH resource or PUCCH resource set Following at least one information:

Whether the PUCCH resource supports the frequency hopping of (inter-slot) between time slot；

Whether the PUCCH resource supports in time slot the frequency hopping of (intra-slot)；

Whether the PUCCH resource supports the transmission of multiple time slots (slot, lower to be known as slot or time slot), and when branch The frequency hopping supported between the multiple time slot when multiple transmission is held, is not supported when not supporting the transmission of multiple time slots described Frequency hopping between multiple time slots；

When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, use In the number of time slot of PUCCH transmission；

The transformat that the PUCCH resource uses；

The PUCCH resource transmits the number of symbols used.

What needs to be explained here is that improving wireless resource utility efficiency in order to reduce signaling overheads in 5G system, reducing base It stands energy consumption, NR system, which is proposed, is divided into two major classes for system information, and one kind is minimum system information (minimum SI), another kind of For other systems information (other SI, or be OSI).Wherein minimum SI includes Master Information Block (Master Information Block, MIB) and remaining minimum system information (Remaining Minimum SI, RMSI).User terminal Equipment is RMSI to be received according to the resource location indicated in MIB, and RMSI is in random access after receiving MIB It is obtained before process (Random Access Channel, RACH).

Currently, requiring to pass through support in Long Term Evolution (Long Term Evolution, LTE) and NR system Random access procedure realizes a variety of purposes.And the purpose of the random access discussed in NR system can be following several at present Kind:

1, initial subscriber terminal equipment is supported to be connected to the network equipment from idle state (RRC idle state)；

2, wireless heterogeneous networks (Radio Resource Control, RRC) are rebuild；

3, switch；

4, downlink data reaches, but uplink lock-out；

5, upstream data reaches, but uplink lock-out；

6, UE goes to state of activation (active) from idle state (inactive)；

7, the uplink synchronous of secondary cell (Scell) is supported to obtain.

RACH process is divided into the random access and non-competing random access procedure of competition at present.The random access mistake of competition Journey is that 4 steps are the access of first message (Message 1) the-the four message (message 4) four step, as shown in Fig. 2, competition is random Access mainly includes the following steps:

Step 1:UE sends random access prefix (Random Access Preamble) to eNB；

Step 2:eNB sends random access response (Random Access Response) to UE；

Step 3: scheduled transmission (Scheduled Transmission)；

Step 4: contention resolved (Contention Resolution).

And the non-competing 2 liang of steps of message 1 and message that only need access, as shown in figure 3, non-competing connects at random Enter and mainly includes the following steps:

Step 0:RA prefix assignment (RA preamble assignment)；

Step 1:UE sends random access prefix (Random Access Preamble) to eNB；

Step 2:eNB sends random access response (Random Access Response) to UE.

As shown in FIG. 2 and 3, the message 2 of the random access of competition and non-competing random access is to send Random access response (Random Access Response, RAR).Subscriber terminal equipment UE monitors corresponding RA- in RAR window The RAR of RNTI.

Since the random access of competition has that UE sends same preamble in same PRACH resource, because This also needs sending message 3 according to the UL authorization (grant) in message2 after having received message 2, and And UE can carry the mark of UE on message3, start contention resolved timer (timer) simultaneously when message3 is sent. If receiving this UE contention resolved of message 4 success of base station transmission before contention resolved timer does not have time-out.In Message4 Base station can carry UE and identify.UE is according to the UE mark carried in message4 it may determine that being oneself Message4, to judge whether to compete successfully.

The structure of a variety of PUCCH is introduced in NR system, can support the short PUCCH structure of 1 to 2 symbol lengths, It can also support the structure of the long PUCCH of 4-14 symbol lengths.On the waveform specifically supported, the design of LTE is extended, is removed It supports, in order to keep the symmetry and consistency of uplink and downlink waveform, also additionally to support other than the DFT-S-OFDM having in LTE CP-OFDM waveform.

The format (format) for the PUCCH that can be supported in NR system and corresponding feature such as the following table 1:

Table 1:PUCCH format

In above-mentioned table 1, format 0 and 2 belongs to short PUCCH, and format 1, format3 and format4 belong to length PUCCH。

In addition the concept that PUCCH resource set (Resource Set, RESET) is introduced in NR system, when RRC connection After foundation, in order to determine that the resource of PUCCH, maximum can configure 4 RESET.And in each RESET, it can configure most Big 4 or 8 resources.When configuring 8 resources, the scheme that needs implicit PUCCH resource to indicate.

The configuration of each resource in RESET is configured according to the parameter list in table 2.

The PUCCH resource that table 2:RRC is pre-configured

In the embodiment of the present application, subscriber terminal equipment can also receive the downlink control of 2 bits other than receiving broadcast message Information (Downlink Control Information, DCI) processed includes ARI field in the DCI.

Wherein, the ARI field is used to indicate the index of PUCCH resource；Or the ARI field is used for and the RMSI In reserved bit joint instructions described in the transformat that uses of PUCCH resource；Or the ARI be used for in the RMSI PUCCH resource described in reserved bit joint instructions transmits the number of symbols used.

S120 determines the PUCCH resource according to the reserved bit in the RMSI；

Specifically, following at least one PUCCH resource can be indicated by reserved bit in RMSI and ARI field The combination of information:

Indicate 0: instruction occupies the PUCCH resource of a symbol, and the format of the PUCCH resource is format0；

Above-mentioned instruction 0 indicates following table 3 by the RMSI of 4 bits:

Table 3

Indicate 1: instruction occupies the PUCCH resource of a symbol, and the format of the PUCCH resource is format0, into one Step is used to indicate beam switchover；

Above-mentioned instruction 1 indicates following table 4 by the RMSI of 4 bits:

Table 4

Indicate 2: instruction occupies the PUCCH resource of two symbols, and the format of the PUCCH resource is format0, into one Step is used to indicate frequency hopping；

Above-mentioned instruction 2 indicates following table 5 by the RMSI of 4 bits:

Table 5

Indicate 3: instruction occupies the PUCCH resource of a symbol and occupies the PUCCH resource of two symbols, and described The format of PUCCH resource is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy two symbols PUCCH resource switching at runtime；

Above-mentioned instruction 3 indicates following table 6 by the RMSI of 4 bits:

Table 6

In these cases, due to that can not indicate PUCCH child resource in PUCCH resource set according only to 4 bit RMSI Number of symbols, thus need further by the ARI field of 2 bits to each PUCCH child resource in the PUCCH resource set Number of symbols.The instruction situation table 18 as described below of specific 2 bit A RI.

Indicate 4: instruction occupies the PUCCH resource of 14 symbols, and the format of the PUCCH resource is format1；

Above-mentioned instruction 4 indicates following table 7 by the RMSI of 4 bits:

Table 7

Indicate 5: instruction occupies the variable PUCCH resource of number of symbols, and the format of the PUCCH resource is format1.

Above-mentioned instruction 5 indicates following table 8 by the RMSI of 4 bits:

Table 8

In these cases, due to that can not indicate PUCCH child resource in PUCCH resource set according only to 4 bit RMSI Number of symbols, thus need further by the ARI field of 2 bits to each PUCCH child resource in the PUCCH resource set Number of symbols.The instruction situation table 18 as described below of specific 2 bit A RI.

Other than above-mentioned 6 kinds of indicating modes, it also can indicate that by reserved bit in RMSI and ARI field as follows PUCCH resource information:

Indicate 6: instruction occupies the PUCCH resource of a symbol and occupies the PUCCH resource of 14 symbols, and described accounts for Format with the PUCCH resource of a symbol is format0, and the format of the PUCCH resource for occupying 14 symbols is Format1 is further used for indicating one symbol PUCCH resource of the occupancy and the PUCCH money for occupying 14 symbols The switching at runtime in source；

Above-mentioned instruction 6 indicates following table 9 by the RMSI of 4 bits:

Table 9

Indicate 7: instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and described The format for occupying the PUCCH resource of a symbol is format0, the format for occupying the variable PUCCH resource of number of symbols For format1, it is further used for indicating what one symbol PUCCH resource of the occupancy and the occupancy number of symbols can be changed The switching at runtime of PUCCH resource；

Above-mentioned instruction 7 indicates following table 10 by the RMSI of 4 bits:

Table 10

Indicate 8: instruction occupies the PUCCH resource of a symbol and occupies the PUCCH resource of 14 symbols, and described accounts for Format with the PUCCH resource of a symbol is format0, and the format of the PUCCH resource for occupying 14 symbols is Format1 is further used for indicating one symbol PUCCH resource of the occupancy and the PUCCH money for occupying 14 symbols The switching at runtime in source is further used for indicating beam switchover；

Above-mentioned instruction 8 indicates following table 11 by the RMSI of 4 bits:

Table 11

Indicate 9: instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and described The format for occupying the PUCCH resource of a symbol is format0, the format for occupying the variable PUCCH resource of number of symbols For format1, it is further used for indicating what one symbol PUCCH resource of the occupancy and the occupancy number of symbols can be changed The switching at runtime of PUCCH resource is further used for indicating beam switchover；

Above-mentioned instruction 9 indicates following table 12 by the RMSI of 4 bits:

Table 12

Indicate 10: instruction occupies the PUCCH resource of two symbols and occupies the PUCCH resource of 14 symbols, and described The format for occupying the PUCCH resource of two symbols is format0, and the format of the PUCCH resource for occupying 14 symbols is Format1 is further used for indicating the PUCCH resource for occupying two symbols and the PUCCH for occupying 14 symbols The switching at runtime of resource；

Above-mentioned instruction 10 indicates following table 13 by the RMSI of 4 bits:

Table 13

Indicate 11: instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, and institute The format for stating the PUCCH resource for occupying two symbols is format0, the lattice for occupying the variable PUCCH resource of number of symbols Formula is format1, is further used for indicating what the PUCCH resource for occupying two symbols and the occupancy number of symbols can be changed The switching at runtime of PUCCH resource.

Above-mentioned instruction 11 indicates following table 14 by the RMSI of 4 bits:

Table 14

In the case where above-mentioned instruction 6 to instruction 11, due to that can not indicate PUCCH resource set according only to 4 bit RMSI The format of middle PUCCH child resource is format0 (F0) or format1 (F1), thus is needed further through 2 bits Format of the ARI field to each PUCCH child resource in the PUCCH resource set.The instruction situation of specific 2 bit A RI is detailed in down State table 18.

In addition, also can indicate that following PUCCH resource information by reserved bit in RMSI and ARI field:

The format for indicating PUCCH resource is format1, and is further used for indicating that the PUCCH resource is N number of using repeating The mode of slot is transmitted.

Specifically, following several information can be indicated respectively:

Indicate 12: the format for indicating PUCCH resource is format1, and is further used for indicating that the PUCCH resource uses The mode for repeating 2 slot is transmitted.

Above-mentioned instruction 12 indicates following table 15 by the RMSI of 4 bits:

Table 15

Indicate 13: the format for indicating PUCCH resource is format1, and is further used for indicating that the PUCCH resource uses The mode for repeating 4 slot is transmitted.

Above-mentioned instruction 13 indicates following table 16 by the RMSI of 4 bits:

Table 16

Indicate 14: the format for indicating PUCCH resource is format1, and is further used for indicating that the PUCCH resource uses The mode for repeating 4 slot is transmitted.

Above-mentioned instruction 14 indicates following table 17 by the RMSI of 4 bits:

Table 17

It also should be noted that having reserved 4 bits in RMSI in the embodiment of the present application is used to indicate PUCCH money Source, by above-mentioned 16 kinds possible PUCCH resource set of 4 bit indications in RMSI, and in each PUCCH resource set 4 PUCCH child resources are contained, thus there is also the need to indicate that PUCCH resource is some PUCCH resource by other information Some PUCCH child resource in set.

In order to achieve the above object, in the embodiment of the present application, 4 PUCCH can also be indicated with 2 bit A RI fields Some PUCCH child resource in resource collection.

By taking information indicated by above table 3~7 and table 15 as an example, the ARI for using 2 bits is introduced in detail below How field indicates four PUCCH child resources in PUCCH resource set, as shown in table 18 below:

Table 18

Wherein, first column information is corresponding with above-mentioned 0~instruction of instruction 5 and instruction 12 respectively in table 18, and table 18 In the second column information then respectively and corresponding to secondary series content in 3~table of above table 7 and table 15, and in table 18 Information shown in three column is then specifically used for determining the position of unique PUCCH child resource.

The content in above table 18 is explained individually below:

Table 18-1

Above table 18-1 indicates to occupy the PUCCH resource set of a symbol, and the format of the PUCCH resource set is May include following four kinds of PUCCH child resources when format0, in the PUCCH resource set:

{ F0,13,1,0, N/A, 0, N/A }；

{ F0,13,1,1, N/A, 0, N/A }；

{ F0,13,1, N-2, N/A, 0, N/A }；

{ F0,13,1, N-1, N/A, 0, N/A }.

Wherein, above-mentioned resource distribution is specifically write according to following format:

{ PUCCH format, primary sign number, number of symbols, first jumps Physical Resource Block (Physical Resource Block, PRB) number, second jumps PRB number, the number of cyclic shift (Cyclic shift, CS), orthogonal mask number (Orthogonal cover code, OCC) }.

Then { F0,13,1,0, N/A, 0, N/A } indicates that the format of the PUCCH child resource is format0, primary sign number It is No. 13, number of symbols 1, the first jump PRB number is 0, and the second jump PRB number is to be not configured, and CS number is 0, orthogonal mask Number OCC is to be not configured.

Table 18-2

Above table 18-2 indicates to occupy the PUCCH resource set of a symbol, and the format of the PUCCH resource set is Format0, and the PUCCH resource set supports beam switchover, may include following four kinds in the PUCCH resource set PUCCH child resource:

{ F0,13,1,0, N/A, 0, N/A }；

{ F0,12,1,0, N/A, 0, N/A }；

{ F0,13,1, N-1, N/A, 0, N/A }；

{ F0,12,1, N-1, N/A, 0, N/A }.

Table 18-3

Above table 18-3 indicates to occupy the PUCCH resource set of two symbols, and the format of the PUCCH resource set is Format0, and support frequency hopping, may include following four kinds of PUCCH child resources in the PUCCH resource set:

{ F0,12,2,0, N-1,0, N/A }；

{ F0,12,2,1, N-2,0, N/A }；

{ F0,12,2, N-2,1,0, N/A }；

{ F0,12,2, N-1,0,0, N/A }.

Table 18-4

Above table 18-4 is indicated to occupy the PUCCH resource set of a symbol and is occupied the PUCCH resource of two symbols In conjunction with, and the format of above-mentioned two PUCCH resource set is format0, and occupies the PUCCH resource set of a symbol It may include following four in the two PUCCH resource set with the switching at runtime for the PUCCH resource set for occupying two symbols Kind PUCCH child resource:

{ F0,13,1,0, N/A, 0, N/A }；

{ F0,12,2,0, N-1,0, N/A }；

{ F0,13,1, N-1, N/A, 0, N/A }；

{ F0,12,2, N-1,0,0, N/A }.

Table 18-5

Above table 18-5 indicates to occupy the PUCCH resource set of 14 symbols, and the format of the PUCCH resource set May include following four kinds of PUCCH child resources in the PUCCH resource set for format1:

{ F1,0,14,0, N-1,0,0 }；

{ F1,0,14,1, N-2,0,0 }；

{ F1,0,14, N-2,1,0,0 }；

{ F1,0,14, N-1,0,0,0 }.

Table 18-6

Above table 18-6 indicates to occupy the variable PUCCH resource set of number of symbols, and the lattice of the PUCCH resource set Formula is format1, may include following four kinds of PUCCH child resources in the PUCCH resource set:

{ F1,0,14,0, N-1,0,0 }；

{ F1,2,12,0, N-1,0,0 }；

{ F1,0,14, N-1,0,0,0 }；

{ F1,2,12, N-1,0,0,0 }.

Table 18-7

Above table 18-7 indicates that the format of PUCCH resource set is format1, and the PUCCH resource set is using weight The mode of multiple 2 slot is transmitted, and may include following four kinds of PUCCH child resources in the PUCCH resource set:

{ F1,0,14,0, N/A, 0,0 }；

{ F1,2,12,0, N/A, 0,0 }；

{ F1,0,14, N-1, N/A, 0,0 }；

{ F1,2,12, N-1, N/A, 0,0 }.

S130 is sending PUCCH in identified PUCCH resource after above-mentioned S110~S120 by executing.

Using the method for wireless communication provided by the embodiment of the present application, in the wireless heterogeneous networks that the network equipment is sent Before RRC configuration reaches subscriber terminal equipment, the network equipment can be carried into the broadcast message RMSI that terminal device is sent It is used to indicate the information of PUCCH resource, and before subscriber terminal equipment and the network equipment establish connection, subscriber terminal equipment It can receive the network equipment and send broadcast message RMSI, and then subscriber terminal equipment can be used to refer to according to what is carried in RMSI Show the information of PUCCH resource, determines used PUCCH resource when progress upstream control signaling transmission, then subscriber terminal equipment It can be sent in determining PUCCH resource to the network equipment before completion is established in the connection between the network equipment PUCCH, and confirmation character ACK is sent to the network equipment simultaneously, in advance by signaled received by subscriber terminal equipment The network equipment, thus before connection between subscriber terminal equipment and the network equipment is established, improve subscriber terminal equipment with The reliability of physical layer interactive process between the network equipment.

Fig. 4 is the method for wireless communication according to another embodiment of the present invention.This method 200 can be held by the network equipment Row.It is understood that the interaction of the terminal device and the network equipment that are described from network equipment side and the description of terminal equipment side It is identical, to avoid repeating, suitably omit associated description.As shown in Fig. 2, method 200 includes:

S210, send broadcast message RMSI, wherein the reserved bit in the RMSI be used to indicate PUCCH resource or Following at least one information of PUCCH resource set: whether the PUCCH resource supports the frequency hopping between time slot；The PUCCH money Whether frequency hopping time slot in is supported in source；Whether the PUCCH resource supports the transmission of multiple time slots, and when the multiple time slots of support Transmission when support frequency hopping between the multiple time slot, do not supported when the multiple when not supporting the transmission of multiple time slots Frequency hopping between gap；When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, Number of time slot for PUCCH transmission；Indicate the transformat that the PUCCH resource uses；Indicate the PUCCH resource transmission The number of symbols used.

S220 receives PUCCH in the PUCCH resource.

Optionally, as one embodiment, the method also includes: further include: Downlink Control Information DCI is sent, it is described It include ARI field in DCI；Wherein, the ARI field is used to indicate the index of PUCCH resource；Or the ARI field is used for The transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI；Or the ARI is used for and institute It states PUCCH resource described in the reserved bit joint instructions in RMSI and transmits the number of symbols used.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI be used to indicate such as down toward A kind of combination of few PUCCH resource information: instruction occupies the PUCCH resource of a symbol, and the format of the PUCCH resource is format0；Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for Indicate beam switchover；The PUCCH resource of two symbols of occupancy is indicated, and the format of the PUCCH resource is format0, into one Step is used to indicate frequency hopping；Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and described The format of PUCCH resource is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy two symbols PUCCH resource switching at runtime；Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information: instruction occupies the PUCCH resource of a symbol and occupies the PUCCH money of 14 symbols Source, and the format of the PUCCH resource for occupying a symbol is format0, the PUCCH resource for occupying 14 symbols Format be format1, be further used for indicating one symbol PUCCH resource of the occupancy and described occupy 14 symbols The switching at runtime of PUCCH resource；Or instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH of number of symbols Resource, and the format of the PUCCH resource for occupying a symbol is format0, it is described to occupy the variable PUCCH of number of symbols The format of resource is format1, is further used for indicating one symbol PUCCH resource of the occupancy and the occupancy number of symbols The switching at runtime of variable PUCCH resource；Or instruction occupies the PUCCH resource of a symbol and occupies 14 symbols PUCCH resource, and the format of the PUCCH resource for occupying a symbol is format0, described 14 symbols of occupancy The format of PUCCH resource is format1, is further used for indicating one symbol PUCCH resource of the occupancy and the occupancy ten The switching at runtime of the PUCCH resource of four symbols is further used for indicating beam switchover；Or instruction occupies a symbol The PUCCH resource that PUCCH resource and occupancy number of symbols can be changed, and the format of the PUCCH resource for occupying a symbol is Format0, the format for occupying the variable PUCCH resource of number of symbols is format1, is further used for indicating the occupancy One symbol PUCCH resource and the switching at runtime for occupying the variable PUCCH resource of number of symbols, are further used for indicating wave Beam switching；Or instruction occupies the PUCCH resource of two symbols and occupies the PUCCH resource of 14 symbols, and the occupancy The format of the PUCCH resource of two symbols is format0, and the format of the PUCCH resource for occupying 14 symbols is Format1 is further used for indicating the PUCCH resource for occupying two symbols and the PUCCH for occupying 14 symbols The switching at runtime of resource；Or instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, And the format of the PUCCH resource for occupying two symbols is format0, it is described to occupy the variable PUCCH resource of number of symbols Format be format1, be further used for indicating that the PUCCH resource for occupying two symbols and the occupancy number of symbols can The switching at runtime of the PUCCH resource of change.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information: the format for indicating the PUCCH resource is format1, and is further used for described in instruction PUCCH resource is transmitted by the way of repeating N number of time slot.

Optionally, as one embodiment, the PUCCH resource set includes M PUCCH child resource, then the ARI word Section is further used for indicating following one or more information of the PUCCH child resource: indicating the lattice of the PUCCH child resource Formula；Indicate the primary sign number of the PUCCH child resource；Indicate the number of symbols of the PUCCH child resource；Described in instruction The first of PUCCH child resource jumps Physical Resource Block PRB number；Indicate that the second of the PUCCH child resource jumps PRB number；Instruction The number of the cyclic shift CS of the PUCCH child resource；And the number of the orthogonal mask OCC of the instruction PUCCH child resource.

Using the method for wireless communication provided by the embodiment of the present application, in the wireless heterogeneous networks that the network equipment is sent Before RRC configuration reaches subscriber terminal equipment, the network equipment can be carried into the broadcast message RMSI that terminal device is sent It is used to indicate the information of PUCCH resource, and before subscriber terminal equipment and the network equipment establish connection, subscriber terminal equipment It can receive the network equipment and send broadcast message RMSI, and then subscriber terminal equipment can be used to refer to according to what is carried in RMSI Show the information of PUCCH resource, determines used PUCCH resource when progress upstream control signaling transmission, then subscriber terminal equipment It can be sent in determining PUCCH resource to the network equipment before completion is established in the connection between the network equipment PUCCH, and confirmation character ACK is sent to the network equipment simultaneously, in advance by signaled received by subscriber terminal equipment The network equipment, thus before connection between subscriber terminal equipment and the network equipment is established, improve subscriber terminal equipment with The reliability of physical layer interactive process between the network equipment.

The method for combining Fig. 1 and Fig. 4 that the wireless communication of the embodiment of the present invention is described in detail above.Below in conjunction with Fig. 5 The terminal device of the present invention is described in detail embodiment.

Fig. 5 is the structural schematic diagram of terminal device according to an embodiment of the present invention.As shown in figure 5, terminal device 10 includes:

Receiving module 11, for receiving the broadcast message RMSI of network equipment transmission, wherein the reserved ratio in the RMSI Spy is used to indicate following at least one information of PUCCH resource or PUCCH resource set: when whether the PUCCH resource is supported Frequency hopping between gap；Whether the PUCCH resource supports the frequency hopping in time slot；Whether the PUCCH resource supports multiple time slots Transmission, and support when supporting the transmission of multiple time slots the frequency hopping between the multiple time slot, when not supporting multiple time slots The frequency hopping between the multiple time slot is not supported when transmission；When the PUCCH resource supports the transmission of multiple time slots and support Number of time slot when frequency hopping between the multiple time slot, for PUCCH transmission；The transformat that the PUCCH resource uses； The PUCCH resource transmits the number of symbols used；

Determining module 12, for determining the PUCCH resource according to the reserved bit in the RMSI；

Sending module 13, for sending PUCCH in the PUCCH resource.

Using the method for wireless communication provided by the embodiment of the present application, in the wireless heterogeneous networks that the network equipment is sent Before RRC configuration reaches subscriber terminal equipment, the network equipment can be carried into the broadcast message RMSI that terminal device is sent It is used to indicate the information of PUCCH resource, and before subscriber terminal equipment and the network equipment establish connection, subscriber terminal equipment It can receive the network equipment and send broadcast message RMSI, and then subscriber terminal equipment can be used to refer to according to what is carried in RMSI Show the information of PUCCH resource, determines used PUCCH resource when progress upstream control signaling transmission, then subscriber terminal equipment It can be sent in determining PUCCH resource to the network equipment before completion is established in the connection between the network equipment PUCCH, and confirmation character ACK is sent to the network equipment simultaneously, in advance by signaled received by subscriber terminal equipment The network equipment, thus before connection between subscriber terminal equipment and the network equipment is established, improve subscriber terminal equipment with The reliability of physical layer interactive process between the network equipment.

Optionally, as one embodiment, receiving module 11 is further used for: Downlink Control Information DCI is received, it is described It include ARI field in DCI；Wherein, the ARI field is used to indicate the index of PUCCH resource；Or the ARI field is used for The transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI；Or the ARI is used for and institute It states PUCCH resource described in the reserved bit joint instructions in RMSI and transmits the number of symbols used.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI be used to indicate such as down toward A kind of combination of few PUCCH resource information:

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0；

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for Indicate beam switchover；

Indicate the PUCCH resource of two symbols of occupancy, and the format of the PUCCH resource is format0, is further used for Indicative of frequency hopping；

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and the PUCCH resource Format be format0, be further used for instruction and occupy the PUCCH resource of a symbol and occupy the PUCCH money of two symbols The switching at runtime in source；

Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；

It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information:

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and the occupancy one The format of the PUCCH resource of symbol is format0, and the format of the PUCCH resource for occupying 14 symbols is format1, It is further used for indicating the dynamic of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols Switching；Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and the occupancy one The format of the PUCCH resource of a symbol is format0, and the format for occupying the variable PUCCH resource of number of symbols is Format1 is further used for indicating one symbol PUCCH resource of the occupancy and the PUCCH that occupies number of symbols and can be changed The switching at runtime of resource；Or

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and the occupancy one The format of the PUCCH resource of symbol is format0, and the format of the PUCCH resource for occupying 14 symbols is format1, It is further used for indicating the dynamic of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols Switching is further used for indicating beam switchover；Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and the occupancy one The format of the PUCCH resource of a symbol is format0, and the format for occupying the variable PUCCH resource of number of symbols is Format1 is further used for indicating one symbol PUCCH resource of the occupancy and the PUCCH that occupies number of symbols and can be changed The switching at runtime of resource is further used for indicating beam switchover；Or

Indicate the PUCCH resource for occupying two symbols and the PUCCH resource for occupying 14 symbols, and the occupancy two The format of the PUCCH resource of symbol is format0, and the format of the PUCCH resource for occupying 14 symbols is format1, It is further used for indicating the dynamic of the PUCCH resource of 14 symbols of the PUCCH resource for occupying two symbols and the occupancy State switching；Or

Instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, and the occupancy two The format of the PUCCH resource of a symbol is format0, and the format for occupying the variable PUCCH resource of number of symbols is Format1 is further used for indicating what the PUCCH resource for occupying two symbols and the occupancy number of symbols can be changed The switching at runtime of PUCCH resource.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information:

The format for indicating the PUCCH resource is format1, and is further used for indicating the PUCCH resource using weight The mode of multiple N number of time slot is transmitted.

Optionally, as one embodiment, the PUCCH resource set includes M PUCCH child resource；Then determining module, It is further used for: indicates the PUCCH child resource in the PUCCH resource set using the ARI field.

Optionally, as one embodiment, the ARI field be used to indicate the following a kind of of the PUCCH child resource or Much information: the format of the PUCCH child resource is indicated；Indicate the primary sign number of the PUCCH child resource；Described in instruction The number of symbols of PUCCH child resource；Indicate that the first of the PUCCH child resource jumps Physical Resource Block PRB number；Described in instruction The second of PUCCH child resource jumps PRB number；Indicate the number of the cyclic shift CS of the PUCCH child resource；And described in instruction The number of the orthogonal mask OCC of PUCCH child resource.

The terminal device 10 of the embodiment of the present invention is referred to the process of the method 100 of the corresponding embodiment of the present invention, also, Each unit/module and other above-mentioned operation and/or functions in the terminal device is respectively in order to corresponding in implementation method 100 Process, for sake of simplicity, details are not described herein.

Fig. 6 is the structural schematic diagram of the network equipment of the embodiment of the present invention.As described in Figure 6, the network equipment 20 includes:

Sending module 21, for sending broadcast message RMSI, wherein the reserved bit in the RMSI is used to indicate Following at least one information of PUCCH resource or PUCCH resource set: whether the PUCCH resource supports the frequency hopping between time slot； Whether the PUCCH resource supports the frequency hopping in time slot；Whether the PUCCH resource supports the transmission of multiple time slots, and works as It supports to support the frequency hopping between the multiple time slot when the transmission of multiple time slots, not supported when not supporting the transmission of multiple time slots Frequency hopping between the multiple time slot；When the PUCCH resource supports the transmission of multiple time slots and supports when the multiple Number of time slot when frequency hopping between gap, for PUCCH transmission；Indicate the transformat that the PUCCH resource uses；Described in instruction PUCCH resource transmits the number of symbols used；

Receiving module 22, for receiving PUCCH in the PUCCH resource.

Optionally, as one embodiment, sending module 21 is further used for: Downlink Control Information DCI is sent, it is described It include ARI field in DCI；Wherein, the ARI field is used to indicate the index of PUCCH resource；Or the ARI field is used for The transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI；Or the ARI is used for and institute It states PUCCH resource described in the reserved bit joint instructions in RMSI and transmits the number of symbols used.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI be used to indicate such as down toward A kind of combination of few PUCCH resource information: instruction occupies the PUCCH resource of a symbol, and the format of the PUCCH resource is format0；Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for Indicate beam switchover；The PUCCH resource of two symbols of occupancy is indicated, and the format of the PUCCH resource is format0, into one Step is used to indicate frequency hopping；Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and described The format of PUCCH resource is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy two symbols PUCCH resource switching at runtime；Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information: instruction occupies the PUCCH resource of a symbol and occupies the PUCCH money of 14 symbols Source, and the format of the PUCCH resource for occupying a symbol is format0, the PUCCH resource for occupying 14 symbols Format be format1, be further used for indicating one symbol PUCCH resource of the occupancy and described occupy 14 symbols The switching at runtime of PUCCH resource；Or instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH of number of symbols Resource, and the format of the PUCCH resource for occupying a symbol is format0, it is described to occupy the variable PUCCH of number of symbols The format of resource is format1, is further used for indicating one symbol PUCCH resource of the occupancy and the occupancy number of symbols The switching at runtime of variable PUCCH resource；Or instruction occupies the PUCCH resource of a symbol and occupies 14 symbols PUCCH resource, and the format of the PUCCH resource for occupying a symbol is format0, described 14 symbols of occupancy The format of PUCCH resource is format1, is further used for indicating one symbol PUCCH resource of the occupancy and the occupancy ten The switching at runtime of the PUCCH resource of four symbols is further used for indicating beam switchover；Or instruction occupies a symbol The PUCCH resource that PUCCH resource and occupancy number of symbols can be changed, and the format of the PUCCH resource for occupying a symbol is Format0, the format for occupying the variable PUCCH resource of number of symbols is format1, is further used for indicating the occupancy One symbol PUCCH resource and the switching at runtime for occupying the variable PUCCH resource of number of symbols, are further used for indicating wave Beam switching；Or instruction occupies the PUCCH resource of two symbols and occupies the PUCCH resource of 14 symbols, and the occupancy The format of the PUCCH resource of two symbols is format0, and the format of the PUCCH resource for occupying 14 symbols is Format1 is further used for indicating the PUCCH resource for occupying two symbols and the PUCCH for occupying 14 symbols The switching at runtime of resource；Or instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, And the format of the PUCCH resource for occupying two symbols is format0, it is described to occupy the variable PUCCH resource of number of symbols Format be format1, be further used for indicating that the PUCCH resource for occupying two symbols and the occupancy number of symbols can The switching at runtime of the PUCCH resource of change.

Optionally, as one embodiment, reserved bit and the ARI field in the RMSI are further used for indicating The combination of following PUCCH resource information: the format for indicating the PUCCH resource is format1, and is further used for described in instruction PUCCH resource is transmitted by the way of repeating N number of time slot.

Optionally, as one embodiment, the PUCCH resource set includes M PUCCH child resource, then the ARI word Section is further used for indicating following one or more information of the PUCCH child resource: indicating the lattice of the PUCCH child resource Formula；Indicate the primary sign number of the PUCCH child resource；Indicate the number of symbols of the PUCCH child resource；Described in instruction The first of PUCCH child resource jumps Physical Resource Block PRB number；Indicate that the second of the PUCCH child resource jumps PRB number；Instruction The number of the cyclic shift CS of the PUCCH child resource；And the number of the orthogonal mask OCC of the instruction PUCCH child resource.

The network equipment 20 of the embodiment of the present invention is referred to the process of the method 200 of the corresponding embodiment of the present invention, also, Each unit/module and other above-mentioned operation and/or functions in the network equipment is respectively in order to corresponding in implementation method 200 Process, for sake of simplicity, details are not described herein.

Fig. 7 shows the structural schematic diagram of the terminal device of another embodiment of the present invention, as shown in fig. 7, terminal device 100 It include: at least one processor 110, memory 120, at least one network interface 130 and user interface 140.Terminal device 100 In various components be coupled by bus system 150.It is understood that bus system 150 is for realizing between these components Connection communication.Bus system 150 further includes that power bus, control bus and status signal are total in addition to including data/address bus Line.But for the sake of clear explanation, various buses are all designated as bus system 150 in Fig. 5.

Wherein, user interface 140 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 120 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- Only Memory, ROM), programmable read only memory (Programmable ROM, PROM), the read-only storage of erasable programmable Device (Erasable PROM, EPROM), electrically erasable programmable read-only memory (Electrically EPROM, EEPROM) or Flash memory.Volatile memory can be random access memory (Random Access Memory, RAM), be used as external high Speed caching.By exemplary but be not restricted explanation, the RAM of many forms is available, such as static random access memory (Static RAM, SRAM), dynamic random access memory (Dynamic RAM, DRAM), Synchronous Dynamic Random Access Memory (Synchronous DRAM, SDRAM), double data speed synchronous dynamic RAM (Double Data Rate SDRAM, DDRSDRAM), enhanced Synchronous Dynamic Random Access Memory (Enhanced SDRAM, ESDRAM), synchronized links Dynamic random access memory (Synclink DRAM, SLDRAM) and direct rambus random access memory (Direct Rambus RAM, DRRAM).The memory 120 of the system and method for description of the embodiment of the present invention is intended to include but is not limited to these With the memory of any other suitable type.

In some embodiments, memory 120 stores following element, executable modules or data structures, or Their subset of person or their superset: operating system 121 and application program 122.

Wherein, operating system 121 include various system programs, such as ccf layer, core library layer, driving layer etc., for real Existing various basic businesses and the hardware based task of processing.Application program 122 includes various application programs, such as media are broadcast Device (Media Player), browser (Browser) etc. are put, for realizing various applied business.Realize embodiment of the present invention side The program of method may be embodied in application program 122.

In embodiments of the present invention, terminal device 100 further include: storage on a memory 120 and can be on processor 110 The computer program of operation, realizes each process of the above method 100 when computer program is executed by processor 110, and can reach To identical technical effect, to avoid repeating, which is not described herein again.

The method that the embodiments of the present invention disclose can be applied in processor 110, or be realized by processor 110. Processor 110 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 110 or the instruction of software form.Above-mentioned processing Device 110 can be general processor, digital signal processor (Digital Signal Processor, DSP), dedicated integrated electricity Road (Application Specific Integrated Circuit, ASIC), ready-made programmable gate array (Field Programmable Gate Array, FPGA) either other programmable logic device, discrete gate or transistor logic, Discrete hardware components.It may be implemented or execute disclosed each method, step and the logic diagram in the embodiment of the present invention.It is general Processor can be microprocessor or the processor is also possible to any conventional processor etc..In conjunction with institute of the embodiment of the present invention The step of disclosed method, can be embodied directly in hardware decoding processor and execute completion, or with the hardware in decoding processor And software module combination executes completion.Software module can be located at random access memory, and flash memory, read-only memory may be programmed read-only In the computer readable storage medium of this fields such as memory or electrically erasable programmable memory, register maturation.The meter Calculation machine readable storage medium storing program for executing is located at memory 120, and processor 110 reads the information in memory 120, completes in conjunction with its hardware The step of stating method.Specifically, it is stored with computer program on the computer readable storage medium, computer program is by processor 110 realize each step such as the embodiment of the method in the above method 100 when executing.

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 (Application Specific Integrated Circuits, ASIC), digital signal processor (Digital Signal Processing, DSP), digital signal processing appts (DSP Device, DSPD), programmable logic device (Programmable Logic Device, PLD), field programmable gate array (Field-Programmable Gate Array, FPGA), general place It manages in device, controller, microcontroller, microprocessor, other electronic units for executing function of the present invention 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.

Fig. 8 shows the structural schematic diagram of the network equipment of another embodiment of the present invention.As shown in figure 8, the network equipment 200 Including processor 210, transceiver 220, memory 230 and bus interface.Wherein:

In embodiments of the present invention, the network equipment 200 further include: be stored on memory 230 and can be in the processor The computer program run on 210 is realized in the above method 200 when the computer program is executed by the processor 210 Each process, and identical technical effect can be reached, to avoid repeating, which is not described herein again.

In fig. 8, bus architecture may include the bus and bridge of any number of interconnection, specifically be represented by processor 210 One or more processors and the various circuits of memory that represent of memory 230 link together.Bus architecture can be with Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like are linked together, these are all these Well known to field, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 220 can be Multiple element includes transmitter and receiver, provides the unit for communicating over a transmission medium with various other devices.

Processor 210, which is responsible for management bus architecture and common processing, memory 130, can store processor 210 and is holding Used data when row operation.

The embodiment of the present invention also provides a kind of computer readable storage medium, and meter is stored on computer readable storage medium Calculation machine program, realizes each process of the above method 100 and 200 when which is executed by processor, and can reach phase Same technical effect, to avoid repeating, which is not described herein again.Wherein, the computer readable storage medium, such as read-only storage Device (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or light Disk etc..

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 (24)

1. a kind of method of wireless communication is applied to terminal device characterized by comprising

Receive the broadcast message remaining system information RMSI that the network equipment is sent, wherein the reserved bit in the RMSI is used for Indicate following at least one information of Physical Uplink Control Channel PUCCH resource or PUCCH resource set:

Whether the PUCCH resource supports the frequency hopping between time slot；

Whether the PUCCH resource supports the frequency hopping in time slot；

Whether the PUCCH resource supports the transmission of multiple time slots, and supports when supporting the transmission of multiple time slots described Frequency hopping between multiple time slots does not support the frequency hopping between the multiple time slot when not supporting the transmission of multiple time slots；

When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, it is used for The number of time slot of PUCCH transmission；

The transformat that the PUCCH resource uses；

The PUCCH resource transmits the number of symbols used；

According to the reserved bit in the RMSI, the PUCCH resource is determined；

PUCCH is sent in the PUCCH resource.

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

Downlink Control Information DCI is received, includes response resource indicator ARI field in the DCI；

Wherein, the ARI field is used to indicate the index of PUCCH resource；Or

The ARI field is used for the transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI； Or

The ARI is used to transmit the number of symbols used with PUCCH resource described in the reserved bit joint instructions in the RMSI.

3. the method as described in claim 1, which is characterized in that reserved bit and the ARI field in the RMSI are used for Indicate the combination of following at least one PUCCH resource information:

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format 0format0；

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Beam switchover；

Indicate the PUCCH resource of two symbols of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Frequency hopping；

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and the lattice of the PUCCH resource Formula is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy the PUCCH resource of two symbols Switching at runtime；

Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；

It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

4. method as claimed in claim 3, which is characterized in that reserved bit and the ARI field in the RMSI are into one Step is used to indicate the combination of following PUCCH resource information:

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols； Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching；Or

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols, It is further used for indicating beam switchover；Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching is further used for indicating beam switchover；Or

Indicate the PUCCH resource for occupying two symbols and the PUCCH resource for occupying 14 symbols, and two symbols of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the PUCCH resource for occupying two symbols and the dynamic of the PUCCH resource for occupying 14 symbols is cut It changes；Or

Instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, and two symbols of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating the PUCCH resource for occupying two symbols and the number of symbols variable PUCCH resource of occupying Switching at runtime.

5. method as claimed in claim 3, which is characterized in that reserved bit and the ARI field in the RMSI are into one Step is used to indicate the combination of following PUCCH resource information:

The format for indicating the PUCCH resource is format1, and is further used for indicating that the PUCCH resource is N number of using repeating The mode of time slot is transmitted.

6. the method as described in claim 1, which is characterized in that the PUCCH resource set includes M PUCCH child resource；

Then according to the reserved bit in the RMSI, the PUCCH resource set is determined, further includes:

The PUCCH child resource in the PUCCH resource set is indicated using the ARI field.

7. method as claimed in claim 6, which is characterized in that the ARI field be used to indicate the PUCCH child resource as A kind of lower or much information:

Indicate the format of the PUCCH child resource；

Indicate the primary sign number of the PUCCH child resource；

Indicate the number of symbols of the PUCCH child resource；

Indicate that the first of the PUCCH child resource jumps Physical Resource Block PRB number；

Indicate that the second of the PUCCH child resource jumps PRB number；

Indicate the number of the cyclic shift CS of the PUCCH child resource；And

Indicate the number of the orthogonal mask OCC of the PUCCH child resource.

8. a kind of method of wireless communication is applied to the network equipment characterized by comprising

Send broadcast message RMSI, wherein the reserved bit in the RMSI is used to indicate PUCCH resource or PUCCH resource collection The following at least one information closed:

Whether the PUCCH resource supports the frequency hopping between time slot；

Whether the PUCCH resource supports the frequency hopping in time slot；

Whether the PUCCH resource supports the transmission of multiple time slots, and supports when supporting the transmission of multiple time slots described Frequency hopping between multiple time slots does not support the frequency hopping between the multiple time slot when not supporting the transmission of multiple time slots；

When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot, it is used for The number of time slot of PUCCH transmission；

Indicate the transformat that the PUCCH resource uses；

Indicate that the PUCCH resource transmits the number of symbols used；

PUCCH is received in the PUCCH resource.

9. method according to claim 8, which is characterized in that further include:

Downlink Control Information DCI is sent, includes ARI field in the DCI；

Wherein, the ARI field is used to indicate the index of PUCCH resource；Or

The ARI field is used for the transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI； Or

The ARI is used to transmit the number of symbols used with PUCCH resource described in the reserved bit joint instructions in the RMSI.

10. method according to claim 8, which is characterized in that reserved bit and the ARI field in the RMSI are used for Indicate the combination of following at least one PUCCH resource information:

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0；

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Beam switchover；

Indicate the PUCCH resource of two symbols of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Frequency hopping；

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and the lattice of the PUCCH resource Formula is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy the PUCCH resource of two symbols Switching at runtime；

Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；

It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

11. method as claimed in claim 10, which is characterized in that reserved bit and the ARI field in the RMSI into One step is used to indicate the combination of following PUCCH resource information:

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols； Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching；Or

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols, It is further used for indicating beam switchover；Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching is further used for indicating beam switchover；Or

Indicate the PUCCH resource for occupying two symbols and the PUCCH resource for occupying 14 symbols, and two symbols of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the PUCCH resource for occupying two symbols and the dynamic of the PUCCH resource for occupying 14 symbols is cut It changes；Or

Instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, and two symbols of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating the PUCCH resource for occupying two symbols and the number of symbols variable PUCCH resource of occupying Switching at runtime.

12. method as claimed in claim 10, which is characterized in that reserved bit and the ARI field in the RMSI into One step is used to indicate the combination of following PUCCH resource information:

The format for indicating the PUCCH resource is format1, and is further used for indicating that the PUCCH resource is N number of using repeating The mode of time slot is transmitted.

13. method according to claim 8, which is characterized in that the PUCCH resource set includes M PUCCH child resource, Then the ARI field is further used for indicating following one or more information of the PUCCH child resource:

Indicate the format of the PUCCH child resource；

Indicate the primary sign number of the PUCCH child resource；

Indicate the number of symbols of the PUCCH child resource；

Indicate that the first of the PUCCH child resource jumps Physical Resource Block PRB number；

Indicate that the second of the PUCCH child resource jumps PRB number；

Indicate the number of the cyclic shift CS of the PUCCH child resource；And

Indicate the number of the orthogonal mask OCC of the PUCCH child resource.

14. a kind of terminal device characterized by comprising

Receiving module, for receiving the broadcast message RMSI of network equipment transmission, wherein the reserved bit in the RMSI is used for Indicate following at least one information of PUCCH resource or PUCCH resource set: whether the PUCCH resource is supported between time slot Frequency hopping；Whether the PUCCH resource supports the frequency hopping in time slot；Whether the PUCCH resource supports the transmission of multiple time slots, with And frequency hopping of the support between the multiple time slot when supporting the transmission of multiple time slots, not when not supporting the transmission of multiple time slots Support the frequency hopping between the multiple time slot；When the PUCCH resource supports the transmission of multiple time slots and supports described more Number of time slot when frequency hopping between a time slot, for PUCCH transmission；The transformat that the PUCCH resource uses；It is described PUCCH resource transmits the number of symbols used；

Determining module, for determining the PUCCH resource according to the reserved bit in the RMSI；

Sending module, for sending PUCCH in the PUCCH resource.

15. terminal device as claimed in claim 14, which is characterized in that receiving module is further used for:

Downlink Control Information DCI is received, includes ARI field in the DCI；

Wherein, the ARI field is used to indicate the index of PUCCH resource；Or

The ARI field is used for the transformat used with PUCCH resource described in the reserved bit joint instructions in the RMSI； Or

The ARI is used to transmit the number of symbols used with PUCCH resource described in the reserved bit joint instructions in the RMSI.

16. terminal device as claimed in claim 14, which is characterized in that reserved bit and the ARI word in the RMSI Section is used to indicate the combination of following at least one PUCCH resource information:

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0；

Indicate the PUCCH resource of one symbol of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Beam switchover；

Indicate the PUCCH resource of two symbols of occupancy, and the format of the PUCCH resource is format0, is further used for indicating Frequency hopping；

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying two symbols, and the lattice of the PUCCH resource Formula is format0, is further used for instruction and occupies the PUCCH resource of a symbol and occupy the PUCCH resource of two symbols Switching at runtime；

Indicate the PUCCH resource of 14 symbols of occupancy, and the format of the PUCCH resource is format1；

It indicates to occupy the variable PUCCH resource of number of symbols, the format of the PUCCH resource is format1.

17. terminal device as claimed in claim 16, which is characterized in that reserved bit and the ARI word in the RMSI Section is further used for indicating the combination of following PUCCH resource information:

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols； Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching；Or

Indicate the PUCCH resource for occupying a symbol and the PUCCH resource for occupying 14 symbols, and one symbol of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the switching at runtime of one symbol PUCCH resource of the occupancy and the PUCCH resource for occupying 14 symbols, It is further used for indicating beam switchover；Or

Instruction occupies the PUCCH resource of a symbol and occupies the variable PUCCH resource of number of symbols, and one symbol of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating one symbol PUCCH resource of the occupancy and described occupies the dynamic of the variable PUCCH resource of number of symbols State switching is further used for indicating beam switchover；Or

Indicate the PUCCH resource for occupying two symbols and the PUCCH resource for occupying 14 symbols, and two symbols of the occupancy PUCCH resource format be format0, it is described occupy 14 symbols PUCCH resource format be format1, into one Step is used to indicate the PUCCH resource for occupying two symbols and the dynamic of the PUCCH resource for occupying 14 symbols is cut It changes；Or

Instruction occupies the PUCCH resource of two symbols and occupies the variable PUCCH resource of number of symbols, and two symbols of the occupancy Number the format of PUCCH resource be format0, the format for occupying the variable PUCCH resource of number of symbols is format1, It is further used for indicating the PUCCH resource for occupying two symbols and the number of symbols variable PUCCH resource of occupying Switching at runtime.

18. terminal device as claimed in claim 16, which is characterized in that reserved bit and the ARI word in the RMSI Section is further used for indicating the combination of following PUCCH resource information:

The format for indicating the PUCCH resource is format1, and is further used for indicating that the PUCCH resource is N number of using repeating The mode of time slot is transmitted.

19. terminal device as claimed in claim 14, which is characterized in that the PUCCH resource set includes M PUCCH Resource；

Then determining module is further used for: indicating that PUCCH in the PUCCH resource set provides using the ARI field Source.

20. terminal device as claimed in claim 19, which is characterized in that the ARI field is used to indicate the PUCCH money Following one or more information in source:

Indicate the format of the PUCCH child resource；

Indicate the primary sign number of the PUCCH child resource；

Indicate the number of symbols of the PUCCH child resource；

Indicate that the first of the PUCCH child resource jumps Physical Resource Block PRB number；

Indicate that the second of the PUCCH child resource jumps PRB number；

Indicate the number of the cyclic shift CS of the PUCCH child resource；And

Indicate the number of the orthogonal mask OCC of the PUCCH child resource.

21. a kind of network equipment characterized by comprising

Sending module, for sending broadcast message RMSI, wherein the reserved bit in the RMSI is used to indicate PUCCH resource Or following at least one information of PUCCH resource set: whether the PUCCH resource supports the frequency hopping between time slot；The PUCCH Whether resource supports the frequency hopping in time slot；Whether the PUCCH resource supports the transmission of multiple time slots, and when supporting multiple The frequency hopping between the multiple time slot is supported when the transmission of gap, is not supported when not supporting the transmission of multiple time slots the multiple Frequency hopping between time slot；When the PUCCH resource supports the transmission of multiple time slots and supports the frequency hopping between the multiple time slot When, the number of time slot for PUCCH transmission；Indicate the transformat that the PUCCH resource uses；Indicate the PUCCH resource Transmit the number of symbols used；

Receiving module, for receiving PUCCH in the PUCCH resource.

22. 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 wireless communication method the step of.

23. 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 7 to The step of method of wireless communication described in any one of 13.

24. a kind of computer-readable medium, which is characterized in that computer program is stored on the computer-readable medium, it is described The step of the method for the wireless communication as described in any one of claims 1 to 13 is realized when computer program is executed by processor Suddenly.