Accurately analyzing wave–structure interactions is crucial for the design and operational
safety of ships and marine structures. This paper presents a fully nonlinear potential-flow …

The applications of the arbitrary Lagrangian-Eulerian (ALE) method on the regularized
boundary integral method (RBIM) for simulating water wave transformation over complex …

This study proposes a new method for effectively and accurately simulating sloshing in a two-
dimensional numerical tank. This technique uses the localized Trefftz method (LTM), a …

To improve both scale and fidelity of numerical water wave simulations to study the evolution
of wave fields within offshore engineering, it is of key practical interest to achieve high …

This paper presents a new numerical model based on the highly nonlinear potential flow
theory for simulating the propagation of water waves in variable depth. A new set of …

A two-way domain decomposition coupling procedure between a fully nonlinear potential
flow model and a Navier–Stokes solver capturing the free surface with a Volume of Fluid …

We develop a fast three-dimensional (3D), high-order boundary element method (HBEM) to
simulate the time evolution of nonlinear broadband steep waves generated by wavemakers …

A machine learning time-series prediction approach is proposed for wave propagation and
wave load prediction. Under unidirectional wave conditions and variable bathymetry, given …

Extending an earlier two-dimensional (2D) implementation, a novel method is introduced for
both detecting the onset of wave breaking and simulating the resulting energy dissipation in …

Floating wind technology is being developed rapidly with the aim of harvesting high-energy
wind resources in medium and deep water areas, unreachable using fixed bottom solutions …