Add to ORKGThis contribution concerns a specific simulation method for coastal wave engineering applications. As is common to reduce computational costs the flow is assumed to be irrotational so that a Boussinesq-type of model in horizontal variables only can be used. Here we advocate the use of such a model that respects the Hamiltonian structure of the wave equations. To avoid approximations of the dispersion relation by an algebraic relation that is needed for finite element/difference methods, we propose a spatial-spectral implementation which can model dispersion exactly for all wave lengths. Results with a relatively simple spatial-spectral implementation of the advanced theoretical model will be compared to experiments for harmonic waves and ir...
In this paper we describe the basic ideas of a so-called Variational Boussinesq Model which is based...
This report describes the formulation, numerical implementation and application of a weakly nonlinea...
A spectral/hp element method for solving enhanced Boussinesq-type equations in two horizontal dimens...
This contribution concerns a specific simulation method for coastal wave engineering applications. A...
Numerical simulations are often used to predict the deformation of waves and their impact on structu...
Accurate simulations of waves in oceanic and coastal areas should take dispersive effects over a lar...
In the description of water waves, dispersion is one of the most important physical properties; it s...
The propagation of water waves in the nearshore region can be described by depthintegrated Boussines...
In the description of water waves, dispersion is one of the most important physical properties; it s...
A challenge in the study of water waves is that the motion can exhibit qualitative differences at di...
A challenge in the study of water waves is that the motion can exhibit qualitative differences at di...
Abstract: In this paper we outline the application of spectral/hp element methods for modelling non...
The Variational Boussinesq Model (VBM) for waves (Klopman et al. 2010) is based on the Hamiltonian s...
The accuracy of a wave model for simulating waves in deep and coastal areas is highly determined by ...
he accuracy of a wave model for simulating waves in deep and coastal areas is highly determined by t...
In this paper we describe the basic ideas of a so-called Variational Boussinesq Model which is based...
This report describes the formulation, numerical implementation and application of a weakly nonlinea...
A spectral/hp element method for solving enhanced Boussinesq-type equations in two horizontal dimens...
This contribution concerns a specific simulation method for coastal wave engineering applications. A...
Numerical simulations are often used to predict the deformation of waves and their impact on structu...
Accurate simulations of waves in oceanic and coastal areas should take dispersive effects over a lar...
In the description of water waves, dispersion is one of the most important physical properties; it s...
The propagation of water waves in the nearshore region can be described by depthintegrated Boussines...
In the description of water waves, dispersion is one of the most important physical properties; it s...
A challenge in the study of water waves is that the motion can exhibit qualitative differences at di...
A challenge in the study of water waves is that the motion can exhibit qualitative differences at di...
Abstract: In this paper we outline the application of spectral/hp element methods for modelling non...
The Variational Boussinesq Model (VBM) for waves (Klopman et al. 2010) is based on the Hamiltonian s...
The accuracy of a wave model for simulating waves in deep and coastal areas is highly determined by ...
he accuracy of a wave model for simulating waves in deep and coastal areas is highly determined by t...
In this paper we describe the basic ideas of a so-called Variational Boussinesq Model which is based...
This report describes the formulation, numerical implementation and application of a weakly nonlinea...
A spectral/hp element method for solving enhanced Boussinesq-type equations in two horizontal dimens...