METHOD, SYSTEM AND DEVICE FOR TRANSMITTING PRE-CODED INDICATION INFORMATION AND DETERMINING PRE-CODING MATRIX
First Claim
1. A method for transmitting a pre-coding indicator, the method comprising:
- determining, by a UE, a first pre-coding indicator and a second pre-coding indicator, wherein the first pre-coding indicator and the second pre-coding indicator correspond to a pre-coding matrix which is equal to a matrix as a function of a first component pre-coding matrix and a second component pre-coding matrix, the first component pre-coding matrix is a block diagonal matrix with sub-matrixes on the diagonal being a Kronecker product of two diagonal matrixes, and the second component pre-coding matrix is constructed by beam-rotating vectors, each of the beam-rotating vectors is equal to a Kronecker product of two vectors; and
transmitting, by the UE, the first pre-coding indicator and the second pre-coding indicator to a network side.
2 Assignments
0 Petitions
Accused Products
Abstract
An embodiment of the present application relates to the technical field of wireless communications, in particular to a method, system and device for transmitting pre-coded indication information and determining a pre-coding matrix. In the prior art, the existing codebook is designed for horizontal beamforming/pre-coding, and will reduce the performance thereof if directly applied in three-dimensional beamforming/pre-coding technique. The present application solves the problem. The method in the embodiment of the present application comprises: a user equipment (UE) determines and transmits first pre-coded indication information and second pre-coding indication information, the pre-coding matrix being equal to the function matrix of a first component pre-coding matrix and a second component pre-coding matrix, a sub-matrix on the diagonal of the first component pre-coding matrix being the Kronecker product of two diagonal matrixes, the second component pre-coding matrix being formed by a beam rotation vector equaling to the Kronecker product of two vectors. The embodiment of the present application improves the performance of the three-dimensional beamforming/pre-coding technique.
26 Citations
36 Claims
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1. A method for transmitting a pre-coding indicator, the method comprising:
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determining, by a UE, a first pre-coding indicator and a second pre-coding indicator, wherein the first pre-coding indicator and the second pre-coding indicator correspond to a pre-coding matrix which is equal to a matrix as a function of a first component pre-coding matrix and a second component pre-coding matrix, the first component pre-coding matrix is a block diagonal matrix with sub-matrixes on the diagonal being a Kronecker product of two diagonal matrixes, and the second component pre-coding matrix is constructed by beam-rotating vectors, each of the beam-rotating vectors is equal to a Kronecker product of two vectors; and transmitting, by the UE, the first pre-coding indicator and the second pre-coding indicator to a network side. - View Dependent Claims (2, 3, 4, 5, 6, 8)
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7. (canceled)
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9-11. -11. (canceled)
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12. A method for determining a pre-coding matrix, the method comprising:
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receiving, by a network-side device, a first pre-coding indicator and a second pre-coding indicator from a UE; and determining, by the network-side device, a pre-coding matrix corresponding to the first pre-coding indicator and the second pre-coding indicator, wherein the pre-coding matrix is equal to a matrix as a function of a first component pre-coding matrix and a second component pre-coding matrix, the first component pre-coding matrix is a block diagonal matrix with sub-matrixes on the diagonal being a Kronecker product of two diagonal matrixes, and the second component pre-coding matrix is constructed by beam-rotating vectors, each of the beam-rotating vectors is equal to a Kronecker product of two vectors. - View Dependent Claims (13, 14, 16)
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15. (canceled)
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17-19. -19. (canceled)
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20. A UE for transmitting a pre-coding indicator, the UE comprising:
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a first determining module configured to determine a first pre-coding indicator and a second pre-coding indicator, wherein the first pre-coding indicator and the second pre-coding indicator correspond to a pre-coding matrix which is equal to a matrix as a function of a first component pre-coding matrix and a second component pre-coding matrix, the first component pre-coding matrix is a block diagonal matrix with sub-matrixes on the diagonal being a Kronecker product of two diagonal matrixes, and the second component pre-coding matrix is constructed by beam-rotating vectors, each of the beam-rotating vectors is equal to a Kronecker product of two vectors; and a transmitting module configured to transmit the first pre-coding indicator and the second pre-coding indicator to a network side. - View Dependent Claims (21, 23, 24, 27)
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22. (canceled)
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25-26. -26. (canceled)
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28-30. -30. (canceled)
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31. A network-side device for determining a pre-coding matrix, the network-side device comprising:
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a receiving module configured to receive a first pre-coding indicator and a second pre-coding indicator from a UE; and a second determining module configured to determine a pre-coding matrix corresponding to the first pre-coding indicator and the second pre-coding indicator, wherein the pre-coding matrix is equal to a matrix as a function of a first component pre-coding matrix and a second component pre-coding matrix, the first component pre-coding matrix is a block diagonal matrix with sub-matrixes on the diagonal being a Kronecker product of two diagonal matrixes, and the second component pre-coding matrix is constructed by beam-rotating vectors, each of the beam-rotating vectors is equal to a Kronecker product of two vectors. - View Dependent Claims (32, 33, 35)
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34. (canceled)
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36-39. -39. (canceled)
Specification