The performance of acoustic modems in the ocean is strongly affected by the ocean environment. A storm can drive up the ambient noise levels, eliminate a thermocline by wind mixing, and whip up violent waves and thereby break up the acoustic mirror formed by the ocean surface. The combined effects of these and other processes on modem performance are not well understood. The authors have been conducting experiments to study these environmental effects on various modulation schemes. Here the focus is on the role of the thermocline on a widely used modulation scheme (frequency-shift keying). Using data from a recent experiment conducted in 100-m-deep water off the coast of Kauai, HI, frequency-shift-key modulation performance is shown to be strongly affected by diurnal cycles in the thermocline. There is dramatic variation in performance (measured by bit error rates) between receivers in the surface duct and receivers in the thermocline. To interpret the performance variations in a quantitative way, a precise metric is introduced based on a signal-to-interference-noise ratio that encompasses both the ambient noise and intersymbol interference. Further, it will be shown that differences in the fading statistics for receivers in and out of the thermocline explain the differences in modem performance.
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April 2007
April 01 2007
Effects of ocean thermocline variability on noncoherent underwater acoustic communications
Martin Siderius;
Martin Siderius
a)
HLS Research Corporation
, 12730 High Bluff Drive, San Diego, California 92130
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Michael B. Porter;
Michael B. Porter
HLS Research Corporation
, 12730 High Bluff Drive, San Diego, California 92130
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Paul Hursky;
Paul Hursky
HLS Research Corporation
, 12730 High Bluff Drive, San Diego, California 92130
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Vincent McDonald;
Vincent McDonald
HLS Research Corporation
, 12730 High Bluff Drive, San Diego, California 92130
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a)
Electronic mail: [email protected]
J. Acoust. Soc. Am. 121, 1895–1908 (2007)
Article history
Received:
December 16 2005
Accepted:
December 30 2006
Citation
Martin Siderius, Michael B. Porter, Paul Hursky, Vincent McDonald, the KauaiEx Group; Effects of ocean thermocline variability on noncoherent underwater acoustic communications. J. Acoust. Soc. Am. 1 April 2007; 121 (4): 1895–1908. https://doi.org/10.1121/1.2436630
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