Authors: Stuhlmeier, Raphael
Vrećica, Teodor 
Toledo, Yaron
Title: Nonlinear Wave Interaction in Coastal and Open Seas: Deterministic and Stochastic Theory
Series/Report no.: Tutorials, Schools, and Workshops in the Mathematical Sciences
First page: 151
Last page: 181
Related Publication(s): Nonlinear Water Waves
Issue Date: 1-Jan-2019
Rank: M13
ISBN: 978-3-030-33535-9
ISSN: 2522-0969
DOI: 10.1007/978-3-030-33536-6_10
Abstract: 
We review the theory of wave interaction in finite and infinite depth. Both of these strands of water-wave research begin with the deterministic governing equations for water waves, from which simplified equations can be derived to model situations of interest, such as the mild slope and modified mild slope equations, the Zakharov equation, or the nonlinear Schrödinger equation. These deterministic equations yield accompanying stochastic equations for averaged quantities of the sea-state, like the spectrum or bispectrum. We discuss several of these in depth, touching on recent results about the stability of open ocean spectra to inhomogeneous disturbances, as well as new stochastic equations for the nearshore.
Keywords: Deep water | Kinetic equations | Mild-slope equation | Nearshore | Nonlinear interaction | Nonlinear Schrödinger equation | Resonant interaction | Shoaling | Water waves | Wave forecasting | Zakharov equation
Publisher: Springer Link

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