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In this Special Issue, seven high-quality papers covering the application and development of many high-end techniques for studies on storm tides, surges, and waves have been published, for instance, the employment of an artificial neural network for predicting coastal freak waves [1]; a reproduction of super typhoon-created extreme waves [2]; a numerical analysis of nonlinear interactions for storm waves, tides, and currents [3]; wave simulation for an island using a circulation–wave coupled model [4]; an analysis of typhoon-induced waves along typhoon tracks in the western North Pacific Ocean [5]; an understanding of how a storm surge prevents or severely restricts aeolian supply [6]; and an investigation of coastal settlements and an assessment of their vulnerability [7].

Technology: general issues --- coastal freak wave --- probabilistic forecasting --- artificial neural network --- storm wave height --- super typhoon --- wave-circulation model --- hybrid winds --- coastal hazard --- vulnerability assessment --- unmanned aerial vehicle --- landscape --- wave distribution --- typhoon tracks --- WAVEWATCH-III --- typhoon wave climate --- empirical orthogonal function --- aeolian processes --- surface moisture --- storm surge --- supply limitations --- fetch --- SCHISM-WWM-III --- ERA5 --- direct modification method --- storm wave --- tidal elevation --- tidal current --- typhoon wave --- SWAN --- FVCOM --- current --- sea-water level --- numerical modeling --- statistical analysis --- artificial intelligence techniques --- storm tide --- coastal morphology --- coastal freak wave --- probabilistic forecasting --- artificial neural network --- storm wave height --- super typhoon --- wave-circulation model --- hybrid winds --- coastal hazard --- vulnerability assessment --- unmanned aerial vehicle --- landscape --- wave distribution --- typhoon tracks --- WAVEWATCH-III --- typhoon wave climate --- empirical orthogonal function --- aeolian processes --- surface moisture --- storm surge --- supply limitations --- fetch --- SCHISM-WWM-III --- ERA5 --- direct modification method --- storm wave --- tidal elevation --- tidal current --- typhoon wave --- SWAN --- FVCOM --- current --- sea-water level --- numerical modeling --- statistical analysis --- artificial intelligence techniques --- storm tide --- coastal morphology

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In this Special Issue, seven high-quality papers covering the application and development of many high-end techniques for studies on storm tides, surges, and waves have been published, for instance, the employment of an artificial neural network for predicting coastal freak waves [1]; a reproduction of super typhoon-created extreme waves [2]; a numerical analysis of nonlinear interactions for storm waves, tides, and currents [3]; wave simulation for an island using a circulation–wave coupled model [4]; an analysis of typhoon-induced waves along typhoon tracks in the western North Pacific Ocean [5]; an understanding of how a storm surge prevents or severely restricts aeolian supply [6]; and an investigation of coastal settlements and an assessment of their vulnerability [7].

coastal freak wave --- probabilistic forecasting --- artificial neural network --- storm wave height --- super typhoon --- wave-circulation model --- hybrid winds --- coastal hazard --- vulnerability assessment --- unmanned aerial vehicle --- landscape --- wave distribution --- typhoon tracks --- WAVEWATCH-III --- typhoon wave climate --- empirical orthogonal function --- aeolian processes --- surface moisture --- storm surge --- supply limitations --- fetch --- SCHISM-WWM-III --- ERA5 --- direct modification method --- storm wave --- tidal elevation --- tidal current --- typhoon wave --- SWAN --- FVCOM --- current --- sea-water level --- numerical modeling --- statistical analysis --- artificial intelligence techniques --- storm tide --- coastal morphology