The effect of channel models on compressed sensing based UWB channel estimation

2011 IEEE International Conference on Ultra-Wideband (ICUWB) Pub Date : 2011-10-24 DOI:10.1109/ICUWB.2011.6058867

M. Başaran, S. Erkucuk, H. A. Çırpan

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引用次数: 12

Abstract

Ultra-wideband (UWB) multipath channels are assumed to have a sparse structure as the received consecutive pulses arrive with a considerable time delay and can be resolved individually at the receiver. Due to this sparse structure, there has been a significant amount of interest in applying the compressive sensing (CS) theory to UWB channel estimation. There are various implementations of the CS theory for the UWB channel estimation based on the assumption that the UWB channels are sparse. However, the sparsity of a UWB channel mainly depends on the channel environment. Motivated by this, in this study we investigate the effect of UWB channel environments on the CS based UWB channel estimation. Particularly, we consider the standardized IEEE 802.15.4a UWB channel models and study the channel estimation performance from a practical implementation point of view. The study shows that while UWB channel models for residential environments (e.g., CM1 and CM2) exhibit a sparse structure yielding a reasonable channel estimation performance, channel models for industrial environments (e.g., CM8) may not be treated as having a sparse structure due to multipaths arriving densely. The results of this study are important as it determines the suitability of different channel models to be used with the CS theory.

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信道模型对基于压缩感知的UWB信道估计的影响

假设超宽带(UWB)多径信道具有稀疏结构，因为接收到的连续脉冲到达时具有相当大的时间延迟，并且可以在接收端单独解析。由于这种稀疏结构，将压缩感知(CS)理论应用于UWB信道估计已经引起了很大的兴趣。基于假设UWB信道是稀疏的，有各种CS理论用于UWB信道估计的实现。然而，UWB信道的稀疏性主要取决于信道环境。基于此，在本研究中，我们研究了UWB信道环境对基于CS的UWB信道估计的影响。特别地，我们考虑了标准化的IEEE 802.15.4a超宽带信道模型，并从实际实现的角度研究了信道估计性能。研究表明，虽然住宅环境的UWB信道模型(例如CM1和CM2)表现出稀疏结构，从而产生合理的信道估计性能，但工业环境的信道模型(例如CM8)可能不会被视为具有稀疏结构，因为多路径到达密集。本研究的结果很重要，因为它决定了不同渠道模型与CS理论一起使用的适用性。

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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来源期刊

2011 IEEE International Conference on Ultra-Wideband (ICUWB)

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