阅读说明：本技术 一种通信方法及装置 (Communication method and device ) 是由 赵越 余政 费永强 南方 程型清 于 2018-02-13 设计创作，主要内容包括：本申请公开了一种通信方法及装置,该通信方法包括：终端设备确定上行控制信息中包括的参数,所述上行控制信息承载于物理上行控制信道中；所述终端设备根据所述上行控制信息中包括的参数,在目标子帧中发送物理上行共享信道和/或物理上行控制信道,所述目标子帧为预分配的用于传输所述物理上行共享信道和所述上行控制信息的子帧。采用本申请的方法及装置,可解决关于碰撞子帧,如何传输物理上行控制信道和物理上行共享信道的问题。(The application discloses a communication method and a device, wherein the communication method comprises the following steps: the method comprises the steps that a terminal device determines parameters included in uplink control information, and the uplink control information is borne in a physical uplink control channel; and the terminal equipment sends a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, wherein the target subframe is a subframe which is pre-allocated and used for transmitting the physical uplink shared channel and the uplink control information. By adopting the method and the device, the problem of how to transmit the physical uplink control channel and the physical uplink shared channel about the collision subframe can be solved.)

A method of communication, comprising:

the method comprises the steps that a terminal device determines parameters included in uplink control information, and the uplink control information is borne in a physical uplink control channel;

and the terminal equipment sends a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, wherein the target subframe is a subframe which is pre-allocated and used for transmitting the physical uplink shared channel and the uplink control information.

The method according to claim 1, wherein the terminal device sends a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, and the method comprises:

when the uplink control information comprises a first parameter, the terminal equipment sends the physical uplink control channel in the target subframe;

and when the uplink control information comprises a second parameter, the terminal equipment sends the physical uplink shared channel in the target subframe.

The method according to claim 1, wherein the terminal device sends a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, and the method comprises:

when the uplink control information comprises a first parameter, the terminal equipment sends the physical uplink control channel in the target subframe;

and when the uplink control information comprises a second parameter, the terminal equipment sends the physical uplink shared channel and/or the uplink control channel in the target subframe according to the quantity relation between a first subframe and the target subframe, wherein the first subframe is a subframe which is pre-allocated and used for transmitting the physical uplink shared channel.

The method according to claim 3, wherein the terminal device transmits the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the number relationship between the first subframe and the target subframe, including:

when the number of the target subframes is less than or equal to a first value, the terminal equipment sends the physical uplink control channel in the target subframes, wherein the first value is equal to the product of the number of the first subframes and a, and the a is a positive number less than 1 or equal to 1;

and when the number of the target subframes is larger than the first value, the terminal equipment sends the physical uplink shared channel in the target subframes.

The method according to claim 3, wherein the terminal device transmits the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the number relationship between the first subframe and the target subframe, including:

when the number of the target subframes is less than or equal to a first value, the terminal equipment transmits the physical uplink control channel in the target subframes, wherein the first value is equal to the product of the number of the first subframes and a, and the a is a positive number less than 1 or equal to 1;

when the number of the target subframes is larger than the first value, the terminal equipment transmits the physical uplink control channel in a first part of subframes of the target subframes and transmits the physical uplink shared channel in a second part of subframes of the target subframes, wherein the first part of subframes and the second part of subframes form the target subframes, and the first part of subframes are earlier in time than the second part of subframes;

or, when the number of the target subframes is greater than the first value, the terminal device sends the physical uplink shared channel in a third part of subframes of the target subframes and sends the physical uplink control channel in a fourth part of subframes of the target subframes, the third part of subframes and the fourth part of subframes constitute the target subframes, and the third part of subframes are earlier in time than the fourth part of subframes.

The method of claim 5, wherein the step of applying the coating comprises applying a coating to the substrate The number of the second partial subframes is equal to the number of target subframes-the number of first partial subframes;

or, the saidThe number of the second partial subframes is equal to the number of target subframes-the number of first partial subframes;

the above-mentionedThe number of the third partial subframes is equal to the number of target subframes-the number of fourth partial subframes;

or, the said

The method according to claim 1, wherein the terminal device sends a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, and the method comprises:

when the uplink control information comprises a first parameter, the terminal equipment sends the physical uplink shared channel and/or the physical uplink control channel in a target subframe according to the quantity relation between a second subframe and the target subframe, wherein the second subframe is a pre-allocated subframe for transmitting the uplink control information;

and when the uplink control information comprises a second parameter, the terminal equipment sends a physical uplink shared channel in the target subframe.

The method according to claim 7, wherein the terminal device transmits the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the number relationship between the second subframe and the target subframe, including:

when the number of the target subframes is less than or equal to a second value, the terminal equipment transmits the physical uplink shared channel in the target subframes, wherein the second value is equal to the product of the number of the second subframes and a, and a is a positive number less than 1 or equal to 1;

and when the number of the target subframes is greater than the second value, the terminal equipment sends the physical uplink control channel in the target subframes.

The method according to claim 7, wherein the terminal device transmits the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the number relationship between the second subframe and the target subframe, including:

when the number of the target subframes is less than or equal to a second value, the terminal equipment sends the physical uplink shared channel in the target subframes, wherein the second value is equal to the product of the number of the second subframes and a, and a is a positive number less than 1 or equal to 1;

when the number of the target subframes is larger than the second value, the terminal equipment transmits the physical uplink shared channel in a first part of subframes of the target subframes and transmits the physical uplink control channel in a second part of subframes of the target subframes, wherein the first part of subframes and the second part of subframes form the target subframes, and the first part of subframes are earlier in time than the second part of subframes;

or, when the number of the target subframes is greater than the second value, the terminal device sends the physical uplink control channel in a third part of subframes of the target subframes and sends the physical uplink shared channel in a fourth part of subframes of the target subframes, the third part of subframes and the fourth part of subframes constitute the target subframes, and the third part of subframes are earlier in time than the fourth part of subframes.

The method of claim 9, wherein the step of determining the target position is performed by a computer

or, the said

the above-mentionedThe number of the third partial subframes is equal to the number of target subframes-the number of fourth partial subframes;

or, the saidThe number of the third partial subframes is equal to the number of target subframes to the number of fourth partial subframes.

The method according to any of claims 1 to 10, wherein the first parameter is acknowledgement information or aperiodic channel state information, and the second parameter is periodic channel state information.

The method of any one of claims 4, 5, 6, 8, 9, and 10, further comprising:

the terminal equipment receives a wireless resource control signaling;

the terminal equipment determines the information of the a according to the radio resource control signaling;

or, the terminal device receives downlink control information;

and the terminal equipment determines the information of the a according to the downlink control information.

A method of communication, comprising:

the method comprises the steps that network equipment receives a physical uplink shared channel and/or a physical uplink control channel in a target subframe, wherein the target subframe is a subframe which is pre-allocated and used for receiving the physical uplink shared channel and uplink control information, and the uplink control information is carried on the physical uplink control channel;

and the network equipment processes the received physical uplink shared channel and/or the physical uplink control channel.

The method of claim 13, wherein the network device receives a physical uplink shared channel and/or a physical uplink control channel in a target subframe, comprising:

when the uplink control information comprises a first parameter, the network equipment receives the physical uplink control channel in the target subframe;

and when the uplink control information comprises a second parameter, the network equipment receives the physical uplink shared channel in the target subframe.

The method of claim 13, wherein the network device receives a physical uplink shared channel and/or a physical uplink control channel in a target subframe, comprising:

when the uplink control information comprises a first parameter, the network equipment receives the physical uplink control channel in the target subframe;

and when the uplink control information comprises a second parameter, the network equipment receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the quantity relation between the target subframe and a first subframe, wherein the first subframe is a pre-allocated subframe for receiving the physical uplink shared channel, and the first subframe is a pre-allocated subframe for receiving the physical uplink shared channel.

The method according to claim 15, wherein the network device receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to a number relationship between the target subframe and a first subframe, and includes:

when the number of the target subframes is less than or equal to a first value, the network equipment receives the physical uplink control channel in the target subframes, wherein the first value is equal to the product of the number of the first subframes and a, and the a is a positive number less than 1 or equal to 1;

when the number of the target subframes is greater than the first value, the network equipment receives the physical uplink shared channel in the target subframes.

The method according to claim 15, wherein the network device receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the number relationship between the target subframe and the first subframe, including:

when the number of the target subframes is less than or equal to a first value, the network equipment receives the physical uplink control channel in the target subframes, wherein the first value is equal to the product of the number of the first subframes and a, and the a is a positive number less than 1 or equal to 1;

when the number of the target subframes is larger than the first value, the network equipment receives the physical uplink control channel in a first part of subframes of the target subframes and receives the physical uplink shared channel in a second part of subframes of the target subframes, wherein the first part of subframes and the second part of subframes form the target subframes, and the first part of subframes are earlier in time than the second part of subframes;

or, when the number of the target subframes is greater than the first value, the network device receives the physical uplink shared channel in a third part of subframes of the target subframes and receives the physical uplink control channel in a fourth part of subframes of the target subframes, the third part of subframes and the fourth part of subframes constitute the target subframes, and the third part of subframes are earlier in time than the fourth part of subframes.

The method of claim 17, wherein the step of determining the target position is performed by a computer The number of the second partial subframes is equal to the number of target subframes-the number of first partial subframes;

or, the saidThe number of the second partial subframes is equal to the number of target subframes-the number of first partial subframes;

the above-mentionedNumber of the third partial subframesThe number of target subframes-the number of fourth partial subframes;

or, the said

The method of claim 13, wherein the network device receives a physical uplink shared channel and/or a physical uplink control channel in a target subframe, comprising:

when the uplink control information comprises a first parameter, the network equipment receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to the quantity relation between a second subframe and the target subframe, wherein the second subframe is a pre-allocated subframe for receiving the uplink control information;

and when the uplink control information comprises a second parameter, the network equipment receives the physical uplink shared channel in the target subframe.

The method according to claim 19, wherein the network device receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to a number relationship between second subframes and the target subframe, including:

when the number of the target subframes is less than or equal to a second value, the network equipment receives the physical uplink shared channel in the target subframes, wherein the second value is equal to the product of the number of the second subframes and a, and a is a positive number less than 1 or equal to 1;

and when the number of the target subframes is greater than the second value, the network equipment receives the physical uplink control channel in the target subframes.

The method according to claim 19, wherein the network device receives the physical uplink shared channel and/or the physical uplink control channel in the target subframe according to a number relationship between second subframes and the target subframe, including:

when the number of the target subframes is less than or equal to a second value, the network equipment receives the physical uplink shared channel in the target subframes, wherein the second value is equal to the product of the number of the second subframes and a, and a is a positive number less than 1 or equal to 1;

when the number of the target subframes is greater than the second value, the network device receives the physical uplink shared channel in a first part of the target subframes and receives the physical uplink control channel in a second part of the target subframes, the first part of the subframes and the second part of the subframes constitute the target subframes, and the first part of the subframes are earlier in time than the second part of the subframes;

or, when the number of the target subframes is greater than the second value, the network device receives the physical uplink control channel in a third part of subframes of the target subframes and receives the physical uplink shared channel in a fourth part of subframes of the target subframes, the third part of subframes and the fourth part of subframes constitute the target subframes, and the third part of subframes are earlier in time than the fourth part of subframes.

The method of claim 21, wherein the step of determining the target position is performed using a computer system

or, the saidThe number of the second partial subframes is equal to the number of target subframes-the number of first partial subframes;

the above-mentionedThe number of the third partial subframes is equal to the number of target subframes-the number of fourth partial subframes;

or, the said

The method according to any of claims 13 to 22, wherein the first parameter is acknowledgement information or aperiodic channel state information, and the second parameter is periodic channel state information.

The method of any one of claims 16, 17, 18, 20, 21, and 22, further comprising:

the network equipment sends a radio resource control signaling, wherein the radio resource control signaling is used for indicating the information of the a;

or, the network device sends downlink control information, where the downlink control information is used to indicate the information of a.

A communications apparatus, comprising:

a processing unit, configured to determine a parameter included in uplink control information, where the uplink control information is carried in a physical uplink control channel;

and the receiving and sending unit is used for sending a physical uplink shared channel and/or a physical uplink control channel in a target subframe according to the parameters included in the uplink control information, wherein the target subframe is a subframe which is pre-allocated and used for transmitting the physical uplink shared channel and the uplink control information.

A communications apparatus, comprising:

a transceiver unit, configured to receive a physical uplink shared channel and/or a physical uplink control channel in a target subframe, where the target subframe is a pre-allocated subframe for receiving the physical uplink shared channel and uplink control information, and the uplink control information is carried on the physical uplink control channel;

and the processing unit is used for processing the received physical uplink shared channel and/or the physical uplink control channel.

A communication device comprising a processor and a memory;

the memory is used for storing computer execution instructions;

the processor is configured to execute computer-executable instructions stored by the memory to cause the communication device to perform the method of any of claims 1-24.

A computer-readable storage medium having stored thereon instructions which, when executed on a computer, cause the computer to perform the method of any one of claims 1 to 24.

A communication system, characterized in that the communication system comprises a communication device according to claim 25 and a communication device according to claim 26.