Distributed demodulation using consensus averaging in wireless sensor networks

2008 42nd Asilomar Conference on Signals, Systems and Computers Pub Date : 2008-12-01 DOI:10.1109/ACSSC.2008.5074599

Hao Zhu, A. Cano, G. Giannakis

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引用次数: 7

Abstract

This paper deals with demodulation of space-time transmissions from a multi-antenna access point to a network of spatially distributed wireless sensors. Distributed demodulation algorithms are developed by achieving network-wide consensus on the average of (cross-) covariances of locally available per sensor received data vectors with the channel matrix, which constitute sufficient statistics for maximum likelihood demodulation. By reaching consensus on such average terms, each sensor can attain demodulation performance as if all the information was available at a centralized unit. Different from existing distributed hypotheses testing schemes whose complexity grows exponentially with the problem dimension, the novel consensus-based demodulator incurs quadratic complexity. Inter-sensor link imperfections due to additive noise and random link failures are also accounted for. Consensus in these cases is achieved in the mean sense with bounded variance, and in the mean-square error sense, respectively. Simulated tests verify the analytical claims. Interestingly, only a few consensus iterations suffice for the novel distributed demodulator to approach the performance of its centralized benchmark.

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基于共识平均的无线传感器网络分布式解调

本文研究了从多天线接入点到空间分布无线传感器网络的时空传输解调问题。分布式解调算法是通过对每个传感器接收到的数据向量与信道矩阵的本地可用协方差的平均值(交叉)达成全网共识而开发的，这构成了最大似然解调的足够统计。通过在这样的平均条件上达成共识，每个传感器可以获得解调性能，就好像所有信息都在一个集中的单元中可用一样。现有的分布式假设检验方案的复杂度随问题维数呈指数增长，而基于共识的解调器的复杂度为二次型。由于附加噪声和随机链路故障引起的传感器间链路缺陷也被考虑在内。在这些情况下，共识分别在有界方差的平均意义上和均方误差意义上实现。模拟试验验证了分析结论。有趣的是，只有很少的共识迭代就足以使新型分布式解调器接近其集中式基准的性能。

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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