MIMO-SDMA/OFDM系统中信道估计与PPIC的联合方案

Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems Pub Date : 2013-11-03 DOI:10.1145/2507924.2507996

Islam E. Shaalan, K. Elbarbary, Ahmed A. S. Dessouki, Mohamed S. Abo El-Soud

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引用次数: 0

摘要

本文提出了一种利用模拟退火(SA)或粒子群优化(PSO)算法进行联合信道估计和部分并行干扰消除的新方案。该方案是针对多用户多输入多输出/空分多址(MIMO-SDMA)正交频分复用(OFDM)系统提出的。该方案旨在降低MIMO SDMA-OFDM系统中传统并行干扰抵消(CPIC)检测方案的抵消误差。采用SA算法和粒子群算法搜索PPIC的最优权值以消除多址干扰。与MMSE和CPIC探测器相比，所提出的方案提供了性能改进，特别是在用户数量比基站(BS)天线高的过载场景中。在这种情况下，由于需要估计的独立收发链路数量的增加以及MIMO信道矩阵的秩所施加的约束，信道估计变得更具挑战性。该方案为上述过载场景下的多用户MIMO信道估计问题和多用户检测问题提供了合理的解决方案。

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SA and PSO assisted joint scheme of channel estimation and PPIC for MIMO-SDMA/OFDM system

In this paper, a new scheme of Joint Channel Estimation and Partial Parallel Interference Cancellation using Simulating Annealing (SA) or Particle Swarm Optimization (PSO) algorithms is proposed. This scheme is proposed for multiuser Multiple-Input Multiple-Output /Space Division Multiple Access (MIMO-SDMA) Orthogonal Frequency Division Multiplexing (OFDM) systems. The proposed scheme tries to reduce the cancellation error in Conventional Parallel Interference Cancellation (CPIC) detection schemes used in MIMO SDMA-OFDM system. The SA and PSO algorithms are employed in searching the optimal weights of the PPIC for multiple access interference cancellation. The proposed scheme is shown to provide a performance improvement as compared to MMSE and CPIC detectors especially in an overloaded scenario where number of users is high as compared to the Base Station (BS) antennas. In this scenario, channel estimation becomes more challenging, owing to the increased number of independent transmitter-receiver links to be estimated and the constraint imposed by the rank of the MIMO channel matrix. The proposed scheme provides a reasonable solution to the multiuser MIMO channel estimation problem and multiuser detection in the above-mentioned overloaded scenario.

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Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems

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