Reduced-feedback opportunistic scheduling and beamforming with GMD for MIMO-OFDMA

2008 42nd Asilomar Conference on Signals, Systems and Computers Pub Date : 2008-10-01 DOI:10.1109/ACSSC.2008.5074784

Man-On Pun, K. Kim, R. Iltis, H. V. Poor

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引用次数: 1

Abstract

Opportunistic scheduling and beamforming schemes have been proposed previously by the authors for reduced-feedback MIMO-OFDMA downlink systems where the MIMO channel of each subcarrier is decomposed into layered spatial subchannels. It has been demonstrated that significant feedback reduction can be achieved by returning information about only one beamforming matrix (BFM) for all subcarriers from each MT, compared to one BFM for each subcarrier in the conventional schemes. However, since the previously proposed channel decomposition was derived based on singular value decomposition, the resulting system performance is impaired by the subchannels associated with the smallest singular values. To circumvent this obstacle, this work proposes improved opportunistic scheduling and beamforming schemes based on geometric mean decomposition-based channel decomposition. In addition to the inherent advantage in reduced feedback, the proposed schemes can achieve improved system performance by decomposing the MIMO channels into spatial subchannels with more evenly distributed channel gains. Numerical results confirm the effectiveness of the proposed opportunistic scheduling and beamforming schemes.

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MIMO-OFDMA的减少反馈机会调度和GMD波束形成

在减少反馈的MIMO- ofdma下行系统中，作者已经提出了机会调度和波束形成方案，其中每个子载波的MIMO信道被分解为分层的空间子信道。研究表明，与传统方案中每个子载波一个波束形成矩阵(BFM)相比，通过从每个MT返回所有子载波的一个波束形成矩阵(BFM)的信息可以实现显著的反馈减少。然而，由于先前提出的信道分解是基于奇异值分解的，因此所得到的系统性能受到与最小奇异值相关的子信道的影响。为了克服这一障碍，本研究提出了基于几何平均分解的信道分解改进的机会调度和波束形成方案。除了在减少反馈方面的固有优势外，所提出的方案还可以通过将MIMO信道分解为信道增益分布更均匀的空间子信道来提高系统性能。数值结果证实了机会调度和波束形成方案的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 42nd Asilomar Conference on Signals, Systems and Computers

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