Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels

Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels

Underwater communication channels are often complicated, and in particular multipath propagation may cause intersymbol interference (ISI). This paper addresses how to remove ISI, and evaluates the performance of three different receiver structures and their implementations. Using real data collected...

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Main Authors: Hefeng Dong, Guosong Zhang, Jens M. Hovem
Format: Article
Language:English
Published: MDPI AG 2012-02-01
Series:Sensors
Subjects:
underwater acoustic communication
time reversal
passive-phase conjugation
matching pursuit
decision feedback equalizer
Online Access:http://www.mdpi.com/1424-8220/12/2/2118/
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spelling doaj-9ae19c4104584d489698b239ee3e1f372020-11-25T01:29:38ZengMDPI AGSensors1424-82202012-02-011222118213510.3390/s120202118Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath ChannelsHefeng DongGuosong ZhangJens M. HovemUnderwater communication channels are often complicated, and in particular multipath propagation may cause intersymbol interference (ISI). This paper addresses how to remove ISI, and evaluates the performance of three different receiver structures and their implementations. Using real data collected in a high-frequency (10–14 kHz) field experiment, the receiver structures are evaluated by off-line data processing. The three structures are multichannel decision feedback equalizer (DFE), passive time reversal receiver (passive-phase conjugation (PPC) with a single channel DFE), and the joint PPC with multichannel DFE. In sparse channels, dominant arrivals represent the channel information, and the matching pursuit (MP) algorithm which exploits the channel sparseness has been investigated for PPC processing. In the assessment, it is found that: (1) it is advantageous to obtain spatial gain using the adaptive multichannel combining scheme; and (2) the MP algorithm improves the performance of communications using PPC processing.http://www.mdpi.com/1424-8220/12/2/2118/underwater acoustic communicationtime reversalpassive-phase conjugationmatching pursuitdecision feedback equalizer
collection DOAJ
language English
format Article
sources DOAJ
author Hefeng Dong
Guosong Zhang
Jens M. Hovem
spellingShingle Hefeng Dong
Guosong Zhang
Jens M. Hovem
Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
Sensors
underwater acoustic communication
time reversal
passive-phase conjugation
matching pursuit
decision feedback equalizer
author_facet Hefeng Dong
Guosong Zhang
Jens M. Hovem
author_sort Hefeng Dong
title Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
title_short Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
title_full Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
title_fullStr Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
title_full_unstemmed Experimental Assessment of Different Receiver Structures for Underwater Acoustic Communications over Multipath Channels
title_sort experimental assessment of different receiver structures for underwater acoustic communications over multipath channels
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2012-02-01
description Underwater communication channels are often complicated, and in particular multipath propagation may cause intersymbol interference (ISI). This paper addresses how to remove ISI, and evaluates the performance of three different receiver structures and their implementations. Using real data collected in a high-frequency (10–14 kHz) field experiment, the receiver structures are evaluated by off-line data processing. The three structures are multichannel decision feedback equalizer (DFE), passive time reversal receiver (passive-phase conjugation (PPC) with a single channel DFE), and the joint PPC with multichannel DFE. In sparse channels, dominant arrivals represent the channel information, and the matching pursuit (MP) algorithm which exploits the channel sparseness has been investigated for PPC processing. In the assessment, it is found that: (1) it is advantageous to obtain spatial gain using the adaptive multichannel combining scheme; and (2) the MP algorithm improves the performance of communications using PPC processing.
topic underwater acoustic communication
time reversal
passive-phase conjugation
matching pursuit
decision feedback equalizer
url http://www.mdpi.com/1424-8220/12/2/2118/
work_keys_str_mv AT hefengdong experimentalassessmentofdifferentreceiverstructuresforunderwateracousticcommunicationsovermultipathchannels
AT guosongzhang experimentalassessmentofdifferentreceiverstructuresforunderwateracousticcommunicationsovermultipathchannels
AT jensmhovem experimentalassessmentofdifferentreceiverstructuresforunderwateracousticcommunicationsovermultipathchannels
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