Robust LLR aided low feedback precoding for interference alignment

2010 National Conference On Communications (NCC) Pub Date : 2010-03-15 DOI:10.1109/NCC.2010.5430223

N. Vinoth, A. Ayyar, B. Ramamurthi, K. Giridhar

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Abstract

Interference alignment, as proposed in [1], is a joint multi-base-station precoding technique where each interfering base-station determines its precoder so as to obtain aligned interfering signals at each user. Determination of such precoders requires complete channel state information of all the interfering links to be present at all the base-stations. In this paper, we present a modified form of interference alignment based on locally-available channel state information at the user equipment. We consider the downlink of a wireless system where basestations and user equipments are equiped with two antennas each and scheduling of users is done based on Fractional Frequency Reuse. Assuming an MMSE receiver at the user equipment, an expression for the optimal precoder to be used by the interfering base-stations is derived so that there is zero interference after MMSE equalization. We also give an example for the case where there is uncancelled interference despite the use of these precoders. The effect of this uncancelled interference is overcome by the use of a robust LLR developed in [2]. Simulation results that demonstrate the performance of the proposed technique are presented.

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鲁棒LLR辅助低反馈干扰对准预编码

[1]提出的干扰对准是一种联合多基站预编码技术，每个干扰基站确定自己的预编码器，从而在每个用户处获得对齐的干扰信号。确定这种预编码器需要在所有基站中提供所有干扰链路的完整信道状态信息。在本文中，我们提出了一种基于用户设备本地可用信道状态信息的干扰对准改进形式。考虑无线系统的下行链路，其中基站和用户设备各配置两根天线，用户调度是基于分数频率复用的。假设用户设备上有MMSE接收器，推导出干扰基站使用的最佳预编码器表达式，使MMSE均衡后的干扰为零。我们还给出了一个例子，尽管使用了这些预编码器，但仍然存在未消除的干扰。这种未抵消干扰的影响可以通过使用[2]中开发的鲁棒LLR来克服。仿真结果验证了该方法的有效性。

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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2010 National Conference On Communications (NCC)

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