Practical application of compressive sensing to ultra-wideband channels

A. H. Muqaibel; M. T. Alkhodary

doi:10.1049/iet-com.2012.0179

Practical application of compressive sensing to ultra-wideband channels

A. H. Muqaibel^*, M. T. Alkhodary

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Compressive sensing (CS) is proposed by many researchers as a solution to the formidable sampling requirements of promising ultra-wideband (UWB) technology. Previous research was evaluated by simulating the IEEE UWB channel model. This study examines the behaviour of compressive sensing for practical UWB signals and proposes approaches to enhance signal reconstruction performance. Four practical dictionaries are proposed to increase the sparsity of the realistic UWB signals. Those dictionaries account for the practical effects of channel-like pulse dispersion and the unavoidable effects of antenna directivity. Both measured data and a more practical directional model are used for evaluation. It is shown that CS based on the new dictionaries is able to reconstruct the practical UWB signals more efficiently with reasonable complexity. Performance improvement of the proposed practical dictionaries in channel estimation for two different receivers is quantified.

Original language	English
Pages (from-to)	2534-2542
Number of pages	9
Journal	IET Communications
Volume	6
Issue number	16
DOIs	https://doi.org/10.1049/iet-com.2012.0179
State	Published - 2012

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Publisher Copyright:
© The Institution of Engineering and Technology 2012.

ASJC Scopus subject areas

Computer Science Applications
Electrical and Electronic Engineering

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abstract = "Compressive sensing (CS) is proposed by many researchers as a solution to the formidable sampling requirements of promising ultra-wideband (UWB) technology. Previous research was evaluated by simulating the IEEE UWB channel model. This study examines the behaviour of compressive sensing for practical UWB signals and proposes approaches to enhance signal reconstruction performance. Four practical dictionaries are proposed to increase the sparsity of the realistic UWB signals. Those dictionaries account for the practical effects of channel-like pulse dispersion and the unavoidable effects of antenna directivity. Both measured data and a more practical directional model are used for evaluation. It is shown that CS based on the new dictionaries is able to reconstruct the practical UWB signals more efficiently with reasonable complexity. Performance improvement of the proposed practical dictionaries in channel estimation for two different receivers is quantified.",

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N2 - Compressive sensing (CS) is proposed by many researchers as a solution to the formidable sampling requirements of promising ultra-wideband (UWB) technology. Previous research was evaluated by simulating the IEEE UWB channel model. This study examines the behaviour of compressive sensing for practical UWB signals and proposes approaches to enhance signal reconstruction performance. Four practical dictionaries are proposed to increase the sparsity of the realistic UWB signals. Those dictionaries account for the practical effects of channel-like pulse dispersion and the unavoidable effects of antenna directivity. Both measured data and a more practical directional model are used for evaluation. It is shown that CS based on the new dictionaries is able to reconstruct the practical UWB signals more efficiently with reasonable complexity. Performance improvement of the proposed practical dictionaries in channel estimation for two different receivers is quantified.

AB - Compressive sensing (CS) is proposed by many researchers as a solution to the formidable sampling requirements of promising ultra-wideband (UWB) technology. Previous research was evaluated by simulating the IEEE UWB channel model. This study examines the behaviour of compressive sensing for practical UWB signals and proposes approaches to enhance signal reconstruction performance. Four practical dictionaries are proposed to increase the sparsity of the realistic UWB signals. Those dictionaries account for the practical effects of channel-like pulse dispersion and the unavoidable effects of antenna directivity. Both measured data and a more practical directional model are used for evaluation. It is shown that CS based on the new dictionaries is able to reconstruct the practical UWB signals more efficiently with reasonable complexity. Performance improvement of the proposed practical dictionaries in channel estimation for two different receivers is quantified.

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Practical application of compressive sensing to ultra-wideband channels

Abstract

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