Add to ORKGA second order Exponential Time Differencing (ETD) scheme for advection-diffusion reaction systems is developed by using a real distinct poles rational function for approximating the underlying matrix exponential. The scheme is proved to be second order convergent. It is demonstrated to be robust for reaction-diffusion systems with non-smooth initial and boundary conditions, sharp solution gradients, and stiff reaction terms. In order to apply the scheme efficiently to higher dimensional problems, a dimensional splitting technique is also developed. This technique can be applied to all ETD schemes and has been found, in the test problems considered, to reduce computational time by up to 80%
PURPOSE : An unconditionally positive definite finite difference scheme termed as UPFD has been deri...
The purpose of this work is to introduce a new kind of finite difference formulation inspired from F...
The effective numerical integration of evolutionary problems arising from real-life applications req...
The most popular numerical method for solving systems of reaction-diffusion equations continues to b...
Philosophiae Doctor - PhDIn this thesis, we solve some time-dependent partial differential equations...
[EN] The matter of the stability for multidimensional diffusion-advection-reaction problems treated ...
The matter of the stability for multidimensional diffusion-advection-reaction problems treated with ...
A collection of codes (in MATLAB & Fortran 77), and examples, for solving reaction-diffusion equatio...
AbstractCox and Matthews [S.M. Cox, P.C. Matthews, Exponential time differencing for stiff systems, ...
Nonlocality and spatial heterogeneity of many practical systems have made fractional differential eq...
A collection of codes (in MATLAB & Fortran 77), and examples, for solving reaction-diffusion equatio...
AbstractCox and Matthews [S.M. Cox, P.C. Matthews, Exponential time differencing for stiff systems, ...
Systems of reaction–diffusion partial differential equations (RD-PDEs) are widely applied for modeli...
Systems of reaction–diffusion partial differential equations (RD-PDEs) are widely applied for modeli...
A modification of the (2,2)-Pade algorithm developed by Wade et al. for implementing the exponential...
PURPOSE : An unconditionally positive definite finite difference scheme termed as UPFD has been deri...
The purpose of this work is to introduce a new kind of finite difference formulation inspired from F...
The effective numerical integration of evolutionary problems arising from real-life applications req...
The most popular numerical method for solving systems of reaction-diffusion equations continues to b...
Philosophiae Doctor - PhDIn this thesis, we solve some time-dependent partial differential equations...
[EN] The matter of the stability for multidimensional diffusion-advection-reaction problems treated ...
The matter of the stability for multidimensional diffusion-advection-reaction problems treated with ...
A collection of codes (in MATLAB & Fortran 77), and examples, for solving reaction-diffusion equatio...
AbstractCox and Matthews [S.M. Cox, P.C. Matthews, Exponential time differencing for stiff systems, ...
Nonlocality and spatial heterogeneity of many practical systems have made fractional differential eq...
A collection of codes (in MATLAB & Fortran 77), and examples, for solving reaction-diffusion equatio...
AbstractCox and Matthews [S.M. Cox, P.C. Matthews, Exponential time differencing for stiff systems, ...
Systems of reaction–diffusion partial differential equations (RD-PDEs) are widely applied for modeli...
Systems of reaction–diffusion partial differential equations (RD-PDEs) are widely applied for modeli...
A modification of the (2,2)-Pade algorithm developed by Wade et al. for implementing the exponential...
PURPOSE : An unconditionally positive definite finite difference scheme termed as UPFD has been deri...
The purpose of this work is to introduce a new kind of finite difference formulation inspired from F...
The effective numerical integration of evolutionary problems arising from real-life applications req...