Detection of underwater transient acoustic signals using time-frequency distributions and higher-order spectra

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Detection of underwater transient acoustic signals using time-frequency distributions and higher-order spectra

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dc.contributor.author Frazer, G.J.
dc.contributor.author Boashash, B
dc.date.accessioned 2011-09-21T07:31:44Z
dc.date.available 2011-09-21T07:31:44Z
dc.date.issued 1991-11
dc.identifier.citation 1991 Conference Record of the Twenty-Fifth Asilomar Conference on Signals, Systems and Computers, Issue Date : 4-6 Nov 1991,On page(s): 1103 en_US
dc.identifier.issn 1058-6393
dc.identifier.uri http://hdl.handle.net/10576/10742
dc.description This paper combines time-frequency methods and higher-order spectra methods to develop algorithms for time-varying higher order spectra. (The most recent upgrade of the original software package that calculates Time-Frequency Distributions and Instantaneous Frequency estimators can be downloaded from the web site: www.time-frequency.net. This was the first software developed in the field, and it was first released publicly in 1987 at the 1st ISSPA conference held in Brisbane, Australia, and then continuously updated). en_US
dc.description.abstract The authors demonstrate the application of the Wigner-Ville time-frequency distribution, the bispectrum, the time-varying bispectrum, and Gerr's third-order Wigner distribution to some underwater acoustic data. They also demonstrate the merit of including higher-order spectral information when signaturing underwater acoustic sources. It is pointed out that conventional signal analysis procedures do not utilize all the information available in many practical signal analysis problems. It is shown that the use of higher-order spectral analysis improves time, frequency, and time-frequency analysis methods and provides the analyst with important additional information. Time-varying higher-order spectra are not well developed and are difficult to interpret. Phase coupling cannot be detected without some form of ensemble averaging. This important feature of the stationary bispectrum, where for single signal realization problems ensemble averages are often replaced by temporal averages, does not carry through to time-varying higher-order spectra. en_US
dc.language.iso en en_US
dc.publisher IEEE en_US
dc.subject time-frequency analysis en_US
dc.subject underwater acoustic en_US
dc.subject Underwater tracking en_US
dc.subject third-order Wigner distribution en_US
dc.subject Wigner-Ville time-frequency distribution en_US
dc.subject bispectrum en_US
dc.subject ensemble averaging en_US
dc.subject higher-order spectral analysis en_US
dc.subject higher-order spectral information en_US
dc.subject phase coupling en_US
dc.subject time-varying bispectrum en_US
dc.subject time-varying higher-order spectra en_US
dc.subject transient acoustic signals en_US
dc.subject underwater acoustic data en_US
dc.subject time-frequency distributions en_US
dc.subject time-frequency signal processing en_US
dc.title Detection of underwater transient acoustic signals using time-frequency distributions and higher-order spectra en_US
dc.type Article en_US

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