阅读说明：本技术 信号传输的方法和装置 (Method and device for signal transmission ) 是由 张兴炜 李春晖 关文康 于 2018-07-27 设计创作，主要内容包括：本申请提供了一种信号传输的方法和装置,该方法包括检测模块根据M个控制信道资源,确定N个断点位置,并在该N个断点位置处与解析模块交互该M个检测结果,能够使得解析模块根据该检测结果获得信号处理参数,从而提高通信质量。(The method comprises the steps that a detection module determines N breakpoint positions according to M control channel resources, and the M detection results are interacted with an analysis module at the N breakpoint positions, so that the analysis module can obtain signal processing parameters according to the detection results, and communication quality is improved.)

A method of signal transmission, comprising:

determining N breakpoint positions according to time domain resources of M control channels, wherein N is less than M, and M and N are positive integers;

and sending M detection results at the N breakpoint positions, wherein the M detection results are generated by detecting the control information in the M control channels.

The method of claim 1, wherein determining N breakpoint locations based on time domain resources of M control channels comprises:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels.

The method of claim 2, wherein the determining the N breakpoint positions according to the ending positions of the time domain resources of the M control channels comprises:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels and the preset time domain length.

The method of claim 3, wherein the predetermined time domain length is greater than the length of the time domain resource of any one of the M control channels, and N ≦ h,l is the time domain length occupied by the time domain resources of the M control channels, S is the presetThe time domain length.

The method of claim 2, wherein the determining N breakpoint positions according to the ending positions of the time domain resources of the M control channels comprises:

and determining the ending positions of the time domain resources of the N control channels as the N breakpoint positions according to the ending positions of the time domain resources of the M control channels and the service priority scheduled by at least one control channel in the M control channels.

The method of claim 5, wherein the traffic priority of the N control channel schedules is higher than the traffic priority of the control channels of the M control channels except for the N control channels.

The method according to any one of claims 1 to 6, wherein the N breakpoint positions include a first breakpoint position and a second breakpoint position, the first breakpoint position is a first breakpoint position of the N breakpoint positions, the second breakpoint position is an ith breakpoint position of the N breakpoint positions, 1< i ≦ N, and i is a positive integer, wherein the sending M detection results at the N breakpoint positions includes:

and sending at least one first detection result at the first breakpoint position, and sending at least one second detection result at the second breakpoint position, where the at least one first detection result includes a detection result obtained by detecting a control channel before the first breakpoint position in the M control channels, and the at least one second detection result includes a detection result obtained by detecting a control channel before the ith breakpoint position and after the (i-1) th breakpoint position in the M control channels.

A method of signal transmission, comprising:

determining N breakpoint positions according to time domain resources of M control channels, wherein N is less than M, and M and N are positive integers;

and receiving M detection results at the N breakpoint positions, wherein the M detection results are generated by detecting the control information in the M control channels.

The method of claim 8, wherein determining N breakpoint locations based on time domain resources of M control channels comprises:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels.

The method of claim 9, wherein the determining the N breakpoint positions according to the ending positions of the time domain resources of the M control channels comprises:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels and the preset time domain length.

The method of claim 10, wherein the predetermined time domain length is greater than the length of the time domain resource of any one of the M control channels, and N ≦ h,

The method of claim 9, wherein the determining N breakpoint positions according to the ending positions of the time domain resources of the M control channels comprises:

and determining the ending positions of the time domain resources of the N control channels as the N breakpoint positions according to the ending positions of the time domain resources of the M control channels and the service priority scheduled by at least one control channel in the M control channels.

The method of claim 12, wherein the traffic priority of the N control channel schedules is higher than the traffic priority of the control channels of the M control channels other than the N control channels.

The method according to any one of claims 8 to 13, wherein the N breakpoint locations include a first breakpoint location and a second breakpoint location, the first breakpoint location is a first breakpoint location of the N breakpoint locations, the second breakpoint location is an ith breakpoint location of the N breakpoint locations, 1< i ≦ N, and i is a positive integer, wherein the receiving M detection results at the N breakpoint locations includes:

receiving at least one first detection result at the first breakpoint position, and receiving at least one second detection result at the second breakpoint position, where the at least one first detection result includes a detection result obtained by detecting a control channel before the first breakpoint position among the M control channels, and the at least one second detection result includes a detection result obtained by detecting a control channel before the ith breakpoint position and after the (i-1) th breakpoint position among the M control channels.

An apparatus for signal transmission, comprising:

the processing module is used for determining N breakpoint positions according to time domain resources of M control channels, wherein N is less than M, and M and N are positive integers;

and the transceiver module is used for sending M detection results at the N breakpoint positions, wherein the M detection results are generated by detecting the control information in the M control channels.

The apparatus of claim 15, wherein the processing module is specifically configured to:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels.

The apparatus of claim 16, wherein the processing module is specifically configured to:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels and the preset time domain length.

The apparatus of claim 17, wherein the predetermined time domain length is greater than the length of the time domain resource of any one of the M control channels, and N ≦ h,l is the time domain length occupied by the time domain resources of the M control channels, and S is the preset time domain length.

The apparatus of claim 16, wherein the processing module is specifically configured to:

and determining the ending positions of the time domain resources of the N control channels as the N breakpoint positions according to the ending positions of the time domain resources of the M control channels and the service priority scheduled by at least one control channel in the M control channels.

The apparatus of claim 19, wherein the traffic priority scheduled in the N control channels is higher than the traffic priority scheduled in the control channels other than the N control channels in the M control channels.

The apparatus according to any one of claims 15 to 20, wherein the N breakpoint positions include a first breakpoint position and a second breakpoint position, the first breakpoint position is a first breakpoint position of the N breakpoint positions, the second breakpoint position is an ith breakpoint position of the N breakpoint positions, 1< i ≦ N, and i is a positive integer, wherein the transceiver module is specifically configured to:

and sending at least one first detection result at the first breakpoint position, and sending at least one second detection result at the second breakpoint position, where the at least one first detection result includes a detection result obtained by detecting a control channel before the first breakpoint position in the M control channels, and the at least one second detection result includes a detection result obtained by detecting a control channel before the ith breakpoint position and after the (i-1) th breakpoint position in the M control channels.

An apparatus for signal transmission, comprising:

the processing module is used for determining N breakpoint positions according to time domain resources of M control channels, wherein N is less than M, and M and N are positive integers;

and the transceiver module is used for receiving M detection results at the N breakpoint positions, wherein the M detection results are generated by detecting the control information in the M control channels.

The apparatus of claim 22, wherein the processing module is specifically configured to:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels.

The apparatus of claim 23, wherein the processing module is specifically configured to:

and determining the N breakpoint positions according to the end positions of the time domain resources of the M control channels and the preset time domain length.

The apparatus of claim 24, wherein the predetermined time domain length is greater than the length of the time domain resource of any one of the M control channels, and N ≦ h,l is the time domain length occupied by the time domain resources of the M control channels, and S is the preset time domain length。

The apparatus of claim 23, wherein the processing module is specifically configured to:

and determining the ending positions of the time domain resources of the N control channels as the N breakpoint positions according to the ending positions of the time domain resources of the M control channels and the service priority scheduled by at least one control channel in the M control channels.

The apparatus of claim 26, wherein the traffic priority scheduled in the N control channels is higher than the traffic priority scheduled in the control channels other than the N control channels in the M control channels.

The apparatus according to any one of claims 22 to 27, wherein the N breakpoint locations include a first breakpoint location and a second breakpoint location, the first breakpoint location is a first breakpoint location of the N breakpoint locations, the second breakpoint location is an ith breakpoint location of the N breakpoint locations, 1< i ≦ N, and i is a positive integer, wherein the transceiver module is specifically configured to:

and sending at least one first detection result at the first breakpoint position, and sending at least one second detection result at the second breakpoint position, where the at least one first detection result includes a detection result obtained by detecting a control channel before the first breakpoint position in the M control channels, and the at least one second detection result includes a detection result obtained by detecting a control channel before the ith breakpoint position and after the (i-1) th breakpoint position in the M control channels.

A computer-readable storage medium comprising instructions that, when executed on a computer, cause the computer to perform the method of any of claims 1 to 14.

A computer program product which, when run on a computer, causes the computer to perform the method of any one of claims 1 to 14.