Abstract
In a closed-loop wireless communication system a codebook-based feedback mechanism is provided to enable non-unitary precoding for multi-stream transmission where in each stream is optimized with suitable transmission power allocation and AMC. The codebook-based feedback mechanism uses a precoding codebook having a power allocation matrix which is constrained to specify that beamforming always applies full power to a predetermined beam. With this constraint a one-bit power allocation feedback index may be used to switch between beamforming and spatial multiplexing.
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4G | 10/06/2010 | ISLD-201006-004 | FREESCALE SEMICONDUCTOR INC |
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Technologies
Product
Use Cases
Services
Claim
1. An apparatus for providing channel dependent codebook based precoding feedback from a first device in a multiple-input, multiple-output (MIMO) communication system, comprising:
a precoding device configured for selecting by a first device a precoding matrix from a precoding codebook, where the precoding codebook comprises:
a set of multi-stream transmission codematrices and a set of single stream transmission codematrices, where each single stream transmission codematrix in the set of single stream transmission codematrices corresponds to a multiple of a column vector of a multi-stream transmission codematrix in the set of multi-stream transmission codematrices; and
a transmitting device configured for sending information comprising feedback information indicative of the selected precoding matrix over a channel to a second device, wherein the feedback information comprises an index and a single feedback bit to be used to switch between spatial multiplexing and beamforming, wherein the spatial multiplexing corresponds to a first power allocation across column vectors of a first multi-stream transmission codematrix, and the beamforming corresponds to full power allocation on a predefined column vector of a second multi-stream transmission codematrix, wherein the index and the single feedback bit specify one or more columns of a selected multi-stream transmission codematrix in the set of multi-stream transmission codematrices.
2. The apparatus of claim 1, where the transmitting device configured for sending the information comprises the transmitting device configured for sending an indication of a selected number of streams.
3. The apparatus of claim 1, where the precoding device is further configured for estimating channel state information by the first device for a transmission channel from a second device to the first device by receiving one or more signals.
4. The apparatus of claim 3, where the precoding device is further configured for using the estimated channel state information in selecting the precoding matrix.
5. The apparatus of claim 1, where the precoding codebook comprises a plurality of transmission codematrices for a 2�2 MIMO channel.
6. The apparatus of claim 1, where the precoding codebook comprises a plurality of transmission codematrices for a 2�4 MIMO channel.
7. The apparatus of claim 1, where the precoding codebook comprises a plurality of transmission codematrices for a 4�2 MIMO channel.
8. The apparatus of claim 1, where the precoding codebook comprises a plurality of transmission codematrices for a 4�4 MIMO channel.
9. The apparatus of claim 1, where the multiple is a value greater than 1.
10. The apparatus of claim 1, wherein the first power allocation across the column vectors of the first multi-stream transmission codematrix is equal to a power allocation of each column vector.
11. A wireless communication device comprising:
radio circuitry comprising two or more antennas and configured to facilitate wireless communications of the wireless communication device; and
a processing element configured to interoperate with the radio circuitry to cause the wireless communication device to:
select a precoding matrix from a precoding codebook, wherein the precoding codebook comprises:
a set of multi-stream transmission codematrices and set of single stream transmission codematrices, where each single stream transmission codematrix in the set of single stream transmission codematrices corresponds to a multiple of a column vector of a multi-stream transmission codematrix in the set of multi-stream transmission codematrices; and
transmit information comprising feedback information indicative of the selected precoding matrix over a channel to a second wireless communication device, wherein the feedback information comprises an index and a single feedback bit to be used to switch between spatial multiplexing and beamforming, wherein the spatial multiplexing corresponds to a first power allocation across column vectors of corresponding first multi-stream transmission codematrix, and the beamforming corresponds to full power allocation on a predefined column vector of corresponding second multi-stream transmission codematrix, wherein the index and the single feedback bit specify one or more columns of a selected multi-stream transmission codematrix in the set of multi-stream transmission codematrices.
12. The wireless communication device of claim 11, wherein the processing element is configured to interoperate with the radio circuitry to further cause the wireless communication device to transmit an indication of a selected number of streams as part of transmitting the information.
13. The wireless communication device of claim 11, wherein the processing element is configured to interoperate with the radio circuitry to further cause the wireless communication device to estimate channel state information for a transmission channel from a second device to the first device, according to one or more signals received by the wireless communication device.
14. The wireless communication device of claim 13, wherein the processing element is configured to interoperate with the radio circuitry to further cause the wireless communication device to select the precoding matrix according to the estimated channel state information.
15. The wireless communication device of claim 11, wherein the precoding codebook comprises one of:
a plurality of transmission codematrices for a 2�2 MIMO channel;
a plurality of transmission codematrices for a 2�4 MIMO channel;
a plurality of transmission codematrices for a 4�2 MIMO channel; or
a plurality of transmission codematrices for a 4�4 MIMO channel.
16. The wireless communication device of claim 11, wherein the first power allocation across the column vectors of the first multi-stream transmission codematrix is equal to a power allocation of each column vector.
17. A non-transitory memory medium storing programming instructions executable by a processing element to cause a wireless communication device to:
select a precoding matrix from a precoding codebook, wherein the precoding codebook comprises:
a set of multi-stream transmission codematrices and a set of single stream transmission codematrices, where each single stream transmission codematrix in the set of single stream transmission codematrices corresponds to a multiple of a column vector of a multi-stream transmission codematrix in the set of multi-stream transmission codematrices; and
transmit information comprising feedback information indicative of the selected precoding matrix over a channel to a second wireless communication device, wherein the feedback information comprises an index and a single feedback bit to be used to switch between spatial multiplexing and beamforming, wherein the spatial multiplexing corresponds to a first power allocation across column vectors of corresponding first multi-stream transmission codematrix, and the beamforming corresponds to full power allocation on a predefined column vector of corresponding second multi-stream transmission codematrix, wherein the index and the single feedback bit specify one or more columns of a selected multi-stream transmission codematrix in the set of multi-stream transmission codematrices.
18. The non-transitory memory medium of claim 17, wherein the programming instructions are executable by the processing element to further cause the wireless communication device to transmit an indication of a selected number of streams as part of transmitting the information.
19. The non-transitory memory medium of claim 17, wherein the programming instructions are executable by the processing element to further cause the wireless communication device to estimate channel state information for a transmission channel from a second device to the first device, according to one or more signals received by the wireless communication device.
20. The non-transitory memory medium of claim 19, wherein the programming instructions are executable by the processing element to further cause the wireless communication device to select the precoding matrix according to the estimated channel state information.
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Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.
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