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MMP-DCD-CV based sparse channel estimation algorithm for underwater acoustic transform domain communication system

MMP-DCD-CV based sparse channel estimation algorithm for underwater acoustic transform domain communication system
MMP-DCD-CV based sparse channel estimation algorithm for underwater acoustic transform domain communication system
In this paper, we propose a computationally efficient multipath matching pursuit (MMP) channel estimation algorithm for underwater acoustic (UWA) transform domain communication systems (TDCSs). The algorithm, referred to as the MMP-DCD-CV algorithm, is based on the dichotomous coordinate descent (DCD) iterations and cross validation (CV). The MMP-DCD-CV sparse channel estimator in each iteration searches for multiple promising path candidates most relevant to a residual vector and chooses the best candidate. The DCD iterations are used to solve the corresponding least squares problem with low complexity and numerical stability. The CV provides a stopping criterion of the algorithm without a priori information on the channel sparsity and noise level and examines whether the algorithm overfits its data, thus improving the estimation accuracy. The performance of the proposed algorithm is evaluated under simulated sparse UWA channels. The numerical results show that the algorithm achieves better performance than the original MMP algorithm, has lower complexity, and does not require prior knowledge on the channel sparsity and noise level. We also propose an UWA TDCS with sparse channel estimation based on the proposed MMP-DCD-CV algorithm. The proposed UWA communication system is tested by the Waymark simulator, providing the virtual signal transmission in the UWA channel, with a measured Sound Speed Profile and bathymetry. Numerical results demonstrate that the UWA TDCS with the proposed sparse channel estimator offers considerable improvement in system performance compared to other TDCS schemes.
Compressive sensing, Cross validation, DCD iterations, multipath matching pursuit, sparse channel, transform domain communication system, underwater acoustic communication
0003-682X
43-52
Zhang, Youwen
7aa2372a-67e3-4f9e-8acb-22e604c34fd5
Wu, Tengfei
dcc142e5-51f3-43c9-ac64-9cffc5a1761c
Zakharov, Yuriy
2abf7642-edba-4f15-8b98-4caca66510f6
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
Zhang, Youwen
7aa2372a-67e3-4f9e-8acb-22e604c34fd5
Wu, Tengfei
dcc142e5-51f3-43c9-ac64-9cffc5a1761c
Zakharov, Yuriy
2abf7642-edba-4f15-8b98-4caca66510f6
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e

Zhang, Youwen, Wu, Tengfei, Zakharov, Yuriy and Li, Jianghui (2019) MMP-DCD-CV based sparse channel estimation algorithm for underwater acoustic transform domain communication system. Applied Acoustics, 154, 43-52. (doi:10.1016/j.apacoust.2019.04.019).

Record type: Article

Abstract

In this paper, we propose a computationally efficient multipath matching pursuit (MMP) channel estimation algorithm for underwater acoustic (UWA) transform domain communication systems (TDCSs). The algorithm, referred to as the MMP-DCD-CV algorithm, is based on the dichotomous coordinate descent (DCD) iterations and cross validation (CV). The MMP-DCD-CV sparse channel estimator in each iteration searches for multiple promising path candidates most relevant to a residual vector and chooses the best candidate. The DCD iterations are used to solve the corresponding least squares problem with low complexity and numerical stability. The CV provides a stopping criterion of the algorithm without a priori information on the channel sparsity and noise level and examines whether the algorithm overfits its data, thus improving the estimation accuracy. The performance of the proposed algorithm is evaluated under simulated sparse UWA channels. The numerical results show that the algorithm achieves better performance than the original MMP algorithm, has lower complexity, and does not require prior knowledge on the channel sparsity and noise level. We also propose an UWA TDCS with sparse channel estimation based on the proposed MMP-DCD-CV algorithm. The proposed UWA communication system is tested by the Waymark simulator, providing the virtual signal transmission in the UWA channel, with a measured Sound Speed Profile and bathymetry. Numerical results demonstrate that the UWA TDCS with the proposed sparse channel estimator offers considerable improvement in system performance compared to other TDCS schemes.

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TDCS-MMP-DCD-CV-AppliedAcoustics - Accepted Manuscript
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More information

Accepted/In Press date: 15 April 2019
e-pub ahead of print date: 24 April 2019
Published date: November 2019
Keywords: Compressive sensing, Cross validation, DCD iterations, multipath matching pursuit, sparse channel, transform domain communication system, underwater acoustic communication

Identifiers

Local EPrints ID: 430238
URI: http://eprints.soton.ac.uk/id/eprint/430238
ISSN: 0003-682X
PURE UUID: a398ebc2-6468-4f57-8a0c-4805f22eeb97
ORCID for Jianghui Li: ORCID iD orcid.org/0000-0002-2956-5940

Catalogue record

Date deposited: 23 Apr 2019 16:30
Last modified: 16 Mar 2024 07:46

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Contributors

Author: Youwen Zhang
Author: Tengfei Wu
Author: Yuriy Zakharov
Author: Jianghui Li ORCID iD

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