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Contains contributions which provide a window into the visions and trends dominating the area of Ambient Intelligence. This book addresses the core technology of the field and provides an analysis of elements of the area which will demand special consideration during the future development of the area.
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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
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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
Choose an application
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
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