On the impact of transmit waveforms on channel estimation inaccuracies in distributed MIMO ad hoc networks

2010 44th Annual Conference on Information Sciences and Systems (CISS) Pub Date : 2010-03-17 DOI:10.1109/CISS.2010.5464923

P. Casari, Davide Chiarotto, M. Zorzi

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引用次数: 5

Abstract

In this paper, we present a general analysis to evaluate the performance of correlator-based channel estimation in distributed MIMO ad hoc networks. This analysis is required to characterize the behavior of networks employing advanced physical-level (PHY) techniques, which call for precise assessment of channel effects in order to be operated correctly. To this end, we assume that several non-orthogonal signals are simultaneously received in a coordinated (i.e., frame-synchronous) but symbol-asynchronous fashion, and undergo flat, independent Rayleigh fading. We show that, in this scenario, channel estimates are affected not only by noise, but also by a displacement depending on the current channel realization. Such additional component can be modeled as a Gaussian random variable, of which we calculate the mean and variance, highlighting its dependence on the number of training symbols and the shape of transmit impulse. In particular, we show that an interesting interplay exists between MAC parameters (e.g., throughput) and the type of impulse chosen in an ad hoc networking protocol simulator.

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分布式MIMO自组织网络中发射波形对信道估计精度的影响

本文对分布式MIMO自组织网络中基于相关器的信道估计性能进行了一般性分析。这种分析是描述采用高级物理层(PHY)技术的网络行为所必需的，这要求对信道效应进行精确评估，以便正确操作。为此，我们假设以协调(即帧同步)但符号异步的方式同时接收几个非正交信号，并经历平坦、独立的瑞利衰落。我们表明，在这种情况下，信道估计不仅受到噪声的影响，还受到依赖于当前信道实现的位移的影响。这种附加分量可以建模为高斯随机变量，我们计算其均值和方差，突出其对训练符号数量和发射脉冲形状的依赖。特别是，我们展示了MAC参数(例如，吞吐量)和在ad hoc网络协议模拟器中选择的脉冲类型之间存在有趣的相互作用。

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 44th Annual Conference on Information Sciences and Systems (CISS)

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