Abstract
A method for feeding back information about a channel between antenna arrays is provided, which includes: receiving, by a first network device, channel information of NÃâ€â€ÂM sub-channels that is sent by a second network device, where an antenna array of the first network device includes M subarrays, an antenna array of the second network device includes N subarrays, a channel between the antenna array of the first network device and the antenna array of the second network device includes the NÃâ€â€ÂM sub-channels, M and N are positive integers and are not both 1, and the M subarrays and the N subarrays each include at least two antennas; and generating channel information of the channel between the antenna array of the first network device and the antenna array of the second network device according to the channel information of the NÃâ€â€ÂM sub-channels that is from the second network device.
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WO2016183803A1 | 5G | 25/12/2017 | ISLD-201711-019 | HUAWEI |
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WO2016183803A1 | 5G,4G,3G | 25/12/2017 | ISLD-201711-019 | HUAWEI | Yes | Basis Patent | ||||
CN107615677A | 5G | 25/12/2017 | ISLD-201711-019 | HUAWEI |
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Technologies
Product
Use Cases
Services
Claim
1. A method for feeding back information about a channel between antenna arrays, comprising:
receiving, by a first network device, sub-channel channel information of a N�M sub-channels that is sent by a second network device, wherein an antenna array of the first network device comprises M subarrays, an antenna array of the second network device comprises N subarrays, the channel between the antenna array of the first network device and the antenna array of the second network device comprises the N�M sub-channels, and M and N are positive integers and M and N are not to be 1 at the same time;
generating channel information of the channel between the antenna array of the first network device and the antenna array of the second network device according to the sub-channel channel information of the N�M sub-channels that is from the second network device; and
sending, by the first network device, subarray configuration information to the second network device, wherein the subarray configuration information is used to divide the antenna array of the first network device into the M subarrays, and M is a positive integer that is greater than or equal to 2 and the M subarrays and the N subarrays each comprise at least two antennas.
2. The method according to claim 1, wherein the subarray configuration information comprises at least one pattern, and the M subarrays are determined according to the at least one pattern.
3. The method according to claim 1, wherein the subarray configuration information comprises a start port number of each subarray, and each of the M subarrays is determined according to the start port number.
4. A method for feeding back information about a channel between antenna arrays, comprising:
generating, by a second network device, sub-channel channel information of N�M sub-channels of the channel between an antenna array of a first network device and an antenna array of the second network device, wherein the antenna array of the first network device comprises M subarrays, the antenna array of the second network device comprises N subarrays, and M and N are positive integers and M and N are not to be 1 at the same time;
sending the sub-channel channel information of the N�M sub-channels to the first network device, so that the first network device generates channel information of the channel between the antenna array of the first network device and the antenna array of the second network device according to the sub-channel channel information of the N�M sub-channels; and
receiving, by the second network device, subarray configuration information sent by the first network device, wherein the subarray configuration information is used to divide the antenna array of the first network device into the M subarrays, and M is a positive integer greater than or equal to 2 and the M subarrays and the N subarrays each comprise at least two antennas.
5. The method according to claim 4, wherein the sub-channel channel information of the N�M sub-channels comprises a rank indicator RI and a precoding matrix indicator PMI, each of the N�M sub-channels corresponds to one sub-channel matrix, and the sub-channel channel information of the N�M sub-channels is obtained according to the following steps:
obtaining autocorrelation matrices of A N�M sub-channels matrices; and
obtaining the RI and the PMI of the N�M sub-channels according to the autocorrelation matrices of the N�M sub-channels matrices.
6. The method according to claim 4, wherein the sub-channel channel information of the N�M sub-channels comprises precoding in the form of a precoding matrix, each of the N�M sub-channels corresponds to one sub-channel matrix, and the generating, by the second network device, the sub-channel channel information of N�M sub-channels of the channel between the antenna array of the first network device and the antenna array of the second network device comprises:
obtaining autocorrelation matrices of a N�M sub-channels matrices; and
obtaining the precoding of the N�M sub-channels matrices according to the autocorrelation matrices of the channel matrices of the N�M sub-channels matrices.
7. The method according to claim 6, wherein the subarray configuration information comprises at least one pattern, and the N subarrays are determined according to the at least one pattern.
8. The method according to claim 6, wherein the subarray configuration information comprises a start port number of each subarray, and the M subarrays are determined according to the start port number of each subarray.
9. An apparatus for feeding back information about a channel between antenna arrays, comprising: a processor and a non-transitory computer-readable medium storing instructions that are executable by the processor, wherein the processor is configured to:
receive sub-channel channel information of N�M sub-channels that is sent by a second network device, wherein an antenna array of a first network device comprises M subarrays, an antenna array of the second network device comprises N subarrays, a channel between the antenna array of the first network device and the antenna array of the second network device comprises the N�M sub-channels, M and N are positive integers and M and N are not to be 1 at the same time;
generate channel information of the channel between the antenna array of the first network device and the antenna array of the second network device according to the received sub-channel channel information of the N�M sub-channels; and
send subarray configuration information to the second network device, the subarray configuration information is used to divide the antenna array of the first network device into the M subarrays, and M is a positive integer greater than or equal to 2 and the M subarrays and the N subarrays each comprise at least two antennas.
10. The apparatus according to claim 9, wherein the subarray configuration information comprises at least one pattern, and the M subarrays are determined according to the at least one pattern.
11. The apparatus according to claim 9, wherein the subarray configuration information comprises a start port number of each subarray, and the M subarrays are determined according to the start port number of each subarray.
12. An apparatus for feeding back information about a channel between antenna arrays, comprising: a processor and a non-transitory computer-readable medium storing instructions that are executable by the processor, wherein the processor is configured to:
generate sub-channel channel information of N�M sub-channels of the channel between an antenna array of a first network device and an antenna array of a second network device, wherein the antenna array of the first network device comprises M subarrays, the antenna array of the second network device comprises N subarrays, and M and N are positive integers and M and N are not to be 1 at the same time;
send the sub-channel channel information of the N�M sub-channels to the first network device, so that the first network device generates channel information of the channel between the antenna array of the first network device and the antenna array of the second network device according to the sub-channel channel information of the N�M sub-channels; and
receive subarray configuration information sent by the first network device, wherein the subarray configuration information is used to divide the antenna array of the first network device into the M subarrays, and M is a positive integer greater than or equal to 2 and the M subarrays and the N subarrays each comprise at least two antennas.
13. The apparatus according to claim 12, wherein the sub-channel channel information of the N�M sub-channels comprises a rank indicator RI and a precoding matrix indicator PMI, each of the N�M sub-channels corresponds to one sub-channel matrix, and the processor is further configured to:
obtain autocorrelation matrices of a N�M sub-channels matrices; and
obtain the RI and the PMI of the N�M sub-channels according to the autocorrelation matrices of the N�M sub-channels matrices.
14. The apparatus according to claim 12, wherein the sub-channel channel information comprises a precoding in the form of a precoding matrix, each of the N�M sub-channels corresponds to one sub-channel matrix, and the processor is further configured to:
obtain autocorrelation matrices of a N�M sub-channels matrices; and
obtain the precoding of the N�M sub-channels according to the autocorrelation matrices of the N�M sub-channels matrices.
15. The apparatus according to claim 12, wherein the subarray configuration information comprises at least one pattern, and the N subarrays are determined according to the at least one pattern.
16. The apparatus according to claim 12, wherein the subarray configuration information comprises a start port number of each subarray, and the M subarrays are determined according to the start port number of each subarray.
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