In this paper we perform a stability analysis of a fully discrete numerical method for the solution of a family of Boussinesq systems, consisting of a Fourier collocation spectral method for the spatial discretization and a explicit fourth order Runge–Kutta (RK4) scheme for time integration. Our goal is to determine the influence of the parameters, associated to this family of systems, on the efficiency and accuracy of the numerical method. This analysis allows us to identify which regions in the parameter space are most appropriate for obtaining an efficient and accurate numerical solution. We show several numerical examples in order to validate the accuracy, stability and applicability of our MATLAB implementation of the numerical method
This paper presents a timestep stability analysis for a class of discretisations applied to the line...
The stabilized Gauge-Uzawa method (SGUM), which is a 2nd-order projection type algorithm used to sol...
This paper presents a timestep stability analysis for a class of discretisations applied to the line...
In this paper, we discuss the nonlinear stability and convergence of a fully discrete Fourier pseudo...
—This report considers a family of second order time stepping schemes for Boussinesq system. The sch...
Abstract. We study numerically the propagation and stability properties of solitary waves (solitons)...
The present paper is concerned with the numerical approximation of a three-parameter family of Bouss...
In this paper we analyse numerical models for time-dependent Boussinesq equations. These equations a...
International audienceA high‐order finite volume scheme is developed to numerically integrate a full...
We study the stability of Runge-Kutta methods for the time integration of semidiscrete systems assoc...
The influence of element shape on the stability of a Runge-Kutta Discontinuous Galerkin method is sy...
International audienceWe analyze the behaviour of an ensemble of time integrators applied to the sem...
The Boussinesq approximation is a way to solve nonisothermall flow such as natural convection prob-l...
Abstract In the paper, the conservative Fourier spectral scheme is presented for the coupled Schrödi...
AbstractA numerical method is developed to solve the nonlinear Boussinesq equation using the quintic...
This paper presents a timestep stability analysis for a class of discretisations applied to the line...
The stabilized Gauge-Uzawa method (SGUM), which is a 2nd-order projection type algorithm used to sol...
This paper presents a timestep stability analysis for a class of discretisations applied to the line...
In this paper, we discuss the nonlinear stability and convergence of a fully discrete Fourier pseudo...
—This report considers a family of second order time stepping schemes for Boussinesq system. The sch...
Abstract. We study numerically the propagation and stability properties of solitary waves (solitons)...
The present paper is concerned with the numerical approximation of a three-parameter family of Bouss...
In this paper we analyse numerical models for time-dependent Boussinesq equations. These equations a...
International audienceA high‐order finite volume scheme is developed to numerically integrate a full...
We study the stability of Runge-Kutta methods for the time integration of semidiscrete systems assoc...
The influence of element shape on the stability of a Runge-Kutta Discontinuous Galerkin method is sy...
International audienceWe analyze the behaviour of an ensemble of time integrators applied to the sem...
The Boussinesq approximation is a way to solve nonisothermall flow such as natural convection prob-l...
Abstract In the paper, the conservative Fourier spectral scheme is presented for the coupled Schrödi...
AbstractA numerical method is developed to solve the nonlinear Boussinesq equation using the quintic...
This paper presents a timestep stability analysis for a class of discretisations applied to the line...
The stabilized Gauge-Uzawa method (SGUM), which is a 2nd-order projection type algorithm used to sol...
This paper presents a timestep stability analysis for a class of discretisations applied to the line...