Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer

Zhengliang Zhu; Feng Tong; Weihua Jiang; Fumin Zhang; Ziqiao Zhang

doi:10.1145/3491315.3491317

Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer

Zhengliang Zhu, Feng Tong, Weihua Jiang, Fumin Zhang, Ziqiao Zhang

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Compared with the radio channels, underwater acoustic (UWA) channels pose challenging difficulties, such as the long time propagation, limited bandwidth, random multipath, and the doppler effect. By exploring the inherent sparsity caused by multipath structure, the reliability of underwater communication can be well improved through channel estimation and the equalization method in the physical layer. In this paper, a type of low-complexity channel estimation algorithms based on the least means square (LMS) adaptive iteration with different norm constraints are reviewed, like the l0-norm (l0-LMS), l1-norm (l1-LMS), and non-uniform norm (NNCLMS), from the perspective of the underwater network. The peer-To-peer long time-scale (in hours) channels variation observed in the physical shallow water channel is embedded into the Network Simulator 3 (NS3). The comprehensive performance of the UWA network was evaluated in terms of throughput, and end-To-end time delay. Lastly, an LSTM based Kalman filter (LSTM-KF) has been applied to predict channel response based on experimental NNCLMS estimation, which offers the potential to artificial extend the time scale of performance evaluation.

Original language	English
Title of host publication	WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems
Publisher	Association for Computing Machinery, Inc
ISBN (Electronic)	9781450395625
DOIs	https://doi.org/10.1145/3491315.3491317
State	Published - 22 Nov 2021
Externally published	Yes
Event	15th ACM International Conference on Underwater Networks and Systems, WUWNet 2021 - Virtual, Online, China Duration: 23 Nov 2021 → 26 Nov 2021

Publication series

Name	WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems

Conference

Conference	15th ACM International Conference on Underwater Networks and Systems, WUWNet 2021
Country/Territory	China
City	Virtual, Online
Period	23/11/21 → 26/11/21

Bibliographical note

Publisher Copyright:
© 2021 ACM.

Keywords

Network simulator 3 (NS3)
underwater acoustics communication (UAC)
underwater acoustics networks (UAN)
underwater acoustics networks simulation

ASJC Scopus subject areas

Computer Networks and Communications
Information Systems
Ocean Engineering

Access to Document

10.1145/3491315.3491317

Cite this

Zhu, Z., Tong, F., Jiang, W., Zhang, F., & Zhang, Z. (2021). Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer. In WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems Article 25 (WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems). Association for Computing Machinery, Inc. https://doi.org/10.1145/3491315.3491317

Zhu, Zhengliang ; Tong, Feng ; Jiang, Weihua et al. / Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer. WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems. Association for Computing Machinery, Inc, 2021. (WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems).

@inproceedings{af90fa50271e476d90d0b3e9604c1720,

title = "Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer",

abstract = "Compared with the radio channels, underwater acoustic (UWA) channels pose challenging difficulties, such as the long time propagation, limited bandwidth, random multipath, and the doppler effect. By exploring the inherent sparsity caused by multipath structure, the reliability of underwater communication can be well improved through channel estimation and the equalization method in the physical layer. In this paper, a type of low-complexity channel estimation algorithms based on the least means square (LMS) adaptive iteration with different norm constraints are reviewed, like the l0-norm (l0-LMS), l1-norm (l1-LMS), and non-uniform norm (NNCLMS), from the perspective of the underwater network. The peer-To-peer long time-scale (in hours) channels variation observed in the physical shallow water channel is embedded into the Network Simulator 3 (NS3). The comprehensive performance of the UWA network was evaluated in terms of throughput, and end-To-end time delay. Lastly, an LSTM based Kalman filter (LSTM-KF) has been applied to predict channel response based on experimental NNCLMS estimation, which offers the potential to artificial extend the time scale of performance evaluation.",

keywords = "Network simulator 3 (NS3), underwater acoustics communication (UAC), underwater acoustics networks (UAN), underwater acoustics networks simulation",

author = "Zhengliang Zhu and Feng Tong and Weihua Jiang and Fumin Zhang and Ziqiao Zhang",

note = "Publisher Copyright: {\textcopyright} 2021 ACM.; 15th ACM International Conference on Underwater Networks and Systems, WUWNet 2021 ; Conference date: 23-11-2021 Through 26-11-2021",

year = "2021",

month = nov,

day = "22",

doi = "10.1145/3491315.3491317",

language = "English",

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Zhu, Z, Tong, F, Jiang, W, Zhang, F & Zhang, Z 2021, Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer. in WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems., 25, WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems, Association for Computing Machinery, Inc, 15th ACM International Conference on Underwater Networks and Systems, WUWNet 2021, Virtual, Online, China, 23/11/21. https://doi.org/10.1145/3491315.3491317

Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer. / Zhu, Zhengliang; Tong, Feng; Jiang, Weihua et al.
WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems. Association for Computing Machinery, Inc, 2021. 25 (WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer

AU - Zhu, Zhengliang

AU - Tong, Feng

AU - Jiang, Weihua

AU - Zhang, Fumin

AU - Zhang, Ziqiao

PY - 2021/11/22

Y1 - 2021/11/22

N2 - Compared with the radio channels, underwater acoustic (UWA) channels pose challenging difficulties, such as the long time propagation, limited bandwidth, random multipath, and the doppler effect. By exploring the inherent sparsity caused by multipath structure, the reliability of underwater communication can be well improved through channel estimation and the equalization method in the physical layer. In this paper, a type of low-complexity channel estimation algorithms based on the least means square (LMS) adaptive iteration with different norm constraints are reviewed, like the l0-norm (l0-LMS), l1-norm (l1-LMS), and non-uniform norm (NNCLMS), from the perspective of the underwater network. The peer-To-peer long time-scale (in hours) channels variation observed in the physical shallow water channel is embedded into the Network Simulator 3 (NS3). The comprehensive performance of the UWA network was evaluated in terms of throughput, and end-To-end time delay. Lastly, an LSTM based Kalman filter (LSTM-KF) has been applied to predict channel response based on experimental NNCLMS estimation, which offers the potential to artificial extend the time scale of performance evaluation.

AB - Compared with the radio channels, underwater acoustic (UWA) channels pose challenging difficulties, such as the long time propagation, limited bandwidth, random multipath, and the doppler effect. By exploring the inherent sparsity caused by multipath structure, the reliability of underwater communication can be well improved through channel estimation and the equalization method in the physical layer. In this paper, a type of low-complexity channel estimation algorithms based on the least means square (LMS) adaptive iteration with different norm constraints are reviewed, like the l0-norm (l0-LMS), l1-norm (l1-LMS), and non-uniform norm (NNCLMS), from the perspective of the underwater network. The peer-To-peer long time-scale (in hours) channels variation observed in the physical shallow water channel is embedded into the Network Simulator 3 (NS3). The comprehensive performance of the UWA network was evaluated in terms of throughput, and end-To-end time delay. Lastly, an LSTM based Kalman filter (LSTM-KF) has been applied to predict channel response based on experimental NNCLMS estimation, which offers the potential to artificial extend the time scale of performance evaluation.

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KW - underwater acoustics communication (UAC)

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M3 - Conference contribution

AN - SCOPUS:85130413222

T3 - WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems

BT - WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems

PB - Association for Computing Machinery, Inc

T2 - 15th ACM International Conference on Underwater Networks and Systems, WUWNet 2021

Y2 - 23 November 2021 through 26 November 2021

ER -

Zhu Z, Tong F, Jiang W, Zhang F, Zhang Z. Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer. In WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems. Association for Computing Machinery, Inc. 2021. 25. (WUWNet 2021 - 15th ACM International Conference on Underwater Networks and Systems). doi: 10.1145/3491315.3491317

Evaluating underwater acoustics sensor network based on sparse LMS algorithm driven physical layer

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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