The mechanisms of freak wave generation in 3D island-reef topography are investigated. Four types of freak waves are investigated based on the wavelet transform for examining the characteristics of freak waves and its mechanism. The freak waves come from a three-dimensional experimental terrain model in random wave. The wavelet energy spectrum, scale-averaged and time-averaged wavelet spectrum are considered. A new parameter (scale-centroid wavelet spectrum) is defined based on wavelet transform algorithm to quantitatively analyze and further estimate the energy transfer process. The results suggest that the occurrence of freak waves is associated with the gradual alignment of the phases of wave components. The nonlinear interaction in terms of wavelet cross-bispectrum implies that wave-wave interaction, especially high-frequency components, is obviously enhanced during freak wave occurrence. The energy will transform to high frequency during freak wave occurrence. The current result forms a definite indication that occurrence of freak waves is caused by the combined effects of linear superposition and nonlinear interactions. Linear superposition begins to take effect long before the freak wave occurs, whereas nonlinear interactions primarily occur during the shorter period just before the freak wave forms. It provides an important reference for the prediction of abnormal waves.
Wang et al. (Fri,) studied this question.
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