Information Theoretical Performance Limits of Single-Carrier Underwater Acoustic Systems
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Date
2014
Authors
Nouri, Hatef
Uysal, Murat
Panayırcı, Erdal
Şenol, Habib
Journal Title
Journal ISSN
Volume Title
Publisher
Inst Engineering Technology-IET
Open Access Color
GOLD
Green Open Access
Yes
OpenAIRE Downloads
OpenAIRE Views
Publicly Funded
No
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Impulse
Average
Influence
Average
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Average
Abstract
In this study the authors investigate the information theoretical limits on the performance of point-to-point single-carrier acoustic systems over frequency-selective underwater channels with intersymbol interference. Under the assumptions of sparse and frequency-selective Rician fading channel and non-white correlated Gaussian ambient noise the authors derive an expression for channel capacity and demonstrate the dependency on channel parameters such as the number location and power delay profile of significant taps as well as environmental parameters such as distance temperature salinity pressure and depth. Then the authors use this expression to determine the optimal carrier frequency input signalling and bandwidth for capacity maximisation.
Description
Keywords
Underwater acoustic communication, Intersymbol interference, Rician channels, Gaussian noise, Channel capacity, Information theoretical performance, Point-to-point single-carrier underwater acoustic system, Frequency-selective underwater channel, Intersymbol interference, Sparse frequency-selective Rician fading channel, Nonwhite correlated Gaussian ambient noise, Channel capacity maximisation, Power delay proflle, Environmental parameter, Optimal carrier frequency, Channel capacity maximisation, channel capacity, Nonwhite correlated Gaussian ambient noise, Intersymbol interference, Channel capacity, Gaussian noise, Information theoretical performance, Sparse frequency-selective Rician fading channel, Environmental parameter, Underwater acoustic communication, Point-to-point single-carrier underwater acoustic system, Power delay proflle, Optimal carrier frequency, Frequency-selective underwater channel, Rician channels
Fields of Science
02 engineering and technology, 01 natural sciences, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering
Citation
WoS Q
Q3
Scopus Q
Q2
OpenCitations Citation Count
5
Source
IET Communications
Volume
8
Issue
15
Start Page
2599
End Page
2610
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Citations
CrossRef : 4
Scopus : 5
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Mendeley Readers : 8
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