Nonlinear Wave–Wave Interactions in a Mistral Event

This study analyzes the detailed nonlinear wave–wave interactions during 6 hours of wave generation in a mistral event. Nonlinearity and phase coupling are computed using wavelet bicoherence, which is a new technique in analyzing wind–wave and wave–wave interactions. Computations of wavelet bicohere...

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Veröffentlicht in:	Journal of coastal research 2007-09, Vol.23 (5), p.1318-1323
1. Verfasser:	Elsayed, Mohamed A. K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Coastal engineering continuous wavelet analysis Fluid mechanics Mistral Morlet wavelet RESEARCH PAPERS Shear flow Surface waves Time series Wave generation Wave interaction Wavelet analysis wavelet bicoherence Waves
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container_title	Journal of coastal research
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creator	Elsayed, Mohamed A. K.
description	This study analyzes the detailed nonlinear wave–wave interactions during 6 hours of wave generation in a mistral event. Nonlinearity and phase coupling are computed using wavelet bicoherence, which is a new technique in analyzing wind–wave and wave–wave interactions. Computations of wavelet bicoherence are conducted for the 13 continuous records of measured wave data. The phase coupling and nonlinear wave–wave interactions are shown to occur at different bicoherence levels, and these levels are different from one record to another. Furthermore, the study shows that there is an increase in nonlinear wave–wave interaction with time.
doi_str_mv	10.2112/04-0378.1
format	Article
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source	BioOne Complete; JSTOR Archive Collection A-Z Listing
subjects	Coastal engineering continuous wavelet analysis Fluid mechanics Mistral Morlet wavelet RESEARCH PAPERS Shear flow Surface waves Time series Wave generation Wave interaction Wavelet analysis wavelet bicoherence Waves
title	Nonlinear Wave–Wave Interactions in a Mistral Event
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