To solve first order radiation and diffraction problems,a higher-order boundary element method(HOBEM) was applied and symmetry was considered to calculate the hydrodynamic interactions with FPSO systems.

Inviscid three-dimensional fully nonlinear numerical wave tank is founded using a quadratic higher-order boundary element model(HOBEM)based on potential theory for irrotational,incompressible fluid flow in an infinite water-depth.

Using the simple Green function as basic solution,this paper applies the fast multipole method(FMM) to the higher order boundary element method(HOBEM) so that the computation cost and storage of the computer are reduced to order of O(Nlog N) and O(N) respectively,where N is the number of unknowns.

Inviscid three-dimensional extreme free surface wave motions in infinite water-depth are simulated using a novel quadratic higher-order boundary element model(HOBEM) based on potential theory.

Based on the integral equation,the high order boundary element method (HOBEM) is employed to solve the second order derivative on z direction of potential on the free surface in potential fluent diffraction.

A fully-nonlinear numerical model based on the time-domain higher-order boundary element method(HOBEM) is established to simulate the kinematics of extreme waves.