Title :
A Low Feedback Scheme for WMAN MIMO Beamforming
Author :
Li, Qinghua ; Li, Guangjie ; Lin, Xintian Eddie ; Zheng, Shanshan
Author_Institution :
Intel Corp., Santa Clara, CA
Abstract :
Two techniques, i.e. differential and complementary feedbacks, are derived to reduce the feedback overhead for MIMO transmit beamforming. The unitary beamforming matrix is the cumulative product of the fed back unitary matrixes for differential feedback. The fed back matrix depicts the incremental change of the beamforming matrix and it is quantized by small vector codebooks. The overhead can be further reduced by complementary feedback for channel with N transmit and M receive antennas, where M is N or N-1. One unit vector is fed back instead of one unitary matrix. The vector corresponds to the complementary subspace of the beamforming subspace for M=N-1 or corresponds to the strongest or weakest singular mode for M=N. Simulation with 3GPP LTE settings demonstrates that both techniques can reduce the feedback overhead by more than 30% with little performance degradation
Keywords :
3G mobile communication; MIMO communication; WiMax; antenna arrays; matrix algebra; 3GPP LTE; MIMO transmit beamforming; WMAN MIMO beamforming; complementary feedbacks; cumulative product; fed back unitary matrixes; low feedback scheme; receive antennas; transmit antennas; unitary beamforming matrix; Array signal processing; Educational institutions; Error correction; Feedback; Feeds; MIMO; Matrix decomposition; Quantization; Transmitting antennas; USA Councils; MIMO; closed-loop; differential feedback; quantization; transmit beamforming;
Conference_Titel :
Radio and Wireless Symposium, 2007 IEEE
Conference_Location :
Long Beach, CA
Print_ISBN :
1-4244-0445-2
Electronic_ISBN :
1-4244-0445-2
DOI :
10.1109/RWS.2007.351840
