Directing Shallow-Water Waves Using Fixed Varying Bathymetry Designed by Recurrent Neural Networks

Abstract: Directing shallow-water waves and their energy is highly desired in many ocean engineering applications. Coastal infrastructures can be protected by reflecting shallow-water waves to deep water. Wave energy harvesting efficiency can be improved by focusing shallow-water waves on wave energy converters. Changing water depth can effectively affect wave celerity and therefore the propagation of shallow-water waves. However, determining spatially varying bathymetry that can direct shallow-water waves to a designed… Show more

“…It is worth noting that machine learning is rapidly advancing and being applied across various disciplines, including coastal zone hydrodynamics (see, e.g., [14]). However, it faces several limitations that currently hinder the successful description and resolution of wave-induced currents.…”

The Three-Dimensional Wave-Induced Current Field: An Analytical Model

“…It is worth noting that machine learning is rapidly advancing and being applied across various disciplines, including coastal zone hydrodynamics (see, e.g., [14]). However, it faces several limitations that currently hinder the successful description and resolution of wave-induced currents.…”

The Three-Dimensional Wave-Induced Current Field: An Analytical Model