Phy layer abstraction for SU-MIMO LTE system employing parallel interference-aware detection

2016 1st International Workshop on Link- and System Level Simulations (IWSLS) Pub Date : 2016-07-01 DOI:10.1109/IWSLS.2016.7801578

E. Lukashova, F. Kaltenberger, R. Knopp, C. Bonnet

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引用次数: 2

Abstract

Maximum-likelihood (ML) receivers are optimum receivers for MIMO systems, but their complexity grows exponentially with the modulation order of the codeword and the number of spatial layers. The Reduced Complexity ML (R-ML) receivers based on low complexity adaptation of the max-log MAP detector and reduction of searching space are a good compromise to satisfy complexity-performance trade-off. In this paper we investigate physical layer abstraction for singleuser MIMO system with a R-ML receiver performing Parallel Interference Aware (PIA) detection. We develop a light-weight extended Mutual Information Effective SINR Mapping (MIESM) methodology based on look-up tables (LUT), which take the special non-linear nature of the PIA receiver into account. The results show that the proposed LUT-based MIESM abstraction method is as accurate as the direct MIESM abstraction, but at the same time has significantly less computational complexity. It can thus be easily used in performance prediction devices as well as system level simulators.

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采用并行干扰感知检测的SU-MIMO LTE系统物理层抽象

最大似然接收机是MIMO系统的最佳接收机，但其复杂度随码字调制顺序和空间层数呈指数增长。基于最大对数MAP检测器的低复杂度自适应和减少搜索空间的降低复杂度ML (R-ML)接收器是一种满足复杂度和性能平衡的折衷方案。在本文中，我们研究了具有R-ML接收器的单用户MIMO系统进行并行干扰感知(PIA)检测的物理层抽象。我们开发了一种基于查找表(LUT)的轻量级扩展互信息有效信噪比映射(MIESM)方法，该方法考虑了PIA接收器的特殊非线性性质。结果表明，本文提出的基于lut的MIESM抽象方法与直接的MIESM抽象方法具有同样的精度，但同时计算复杂度显著降低。因此，它可以很容易地用于性能预测设备以及系统级模拟器。

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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来源期刊

2016 1st International Workshop on Link- and System Level Simulations (IWSLS)

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