In this paper, we use the alternating direction method for isogeometric finite elements to simulate transient problems. Namely, we focus on a parabolic problem and use B-spline basis functions in space and an implicit time-marching method to fully discretize the problem. We introduce intermediate time-steps and separate our differential operator into a summation of the blocks that act along a particular coordinate axis in the intermediate time-steps. We show that the resulting stiffness matrix can be represented as a multiplication of two (in 2D) or three (in 3D) multi-diagonal matrices, each one with B-spline basis functions along the particular axis of the spatial system of coordinates. As a result of these algebraic transformations, we g...
Abstract. A numerical method for solving parabolic equations based on multigrid techniques is propos...
The grid partial analytical solution method is a newly developed unconditionally stable explicit num...
This paper deals with the application of an Alternating Direction Solver (ADS) to a non-stationary l...
In this paper, we use the alternating direction method for isogeometric finite elements to simulate ...
In this paper we present an application of Alternating Direction Implicit (ADI) algorithm for soluti...
AbstractIn this paper we present an application of Alternating Direction Implicit (ADI) algorithm fo...
AbstractThe heat equation is but one example of problems which involve multiple scales. There is a l...
This paper deals with application of Alternating Direction solver (ADS) to nonstationarylinear elast...
Abstract: The research and development of multigrid and explicit-iterative methods for sol...
Completely discrete numerical methods for a nonlinear elliptic-parabolic system, the time-dependent ...
AbstractThis paper considers systems of M parabolic equations, of the form udoti = SijL(uj), where L...
Abstract. Completely discrete numerical methods for a nonlinear elliptic-parabolic system, the time-...
Advanced time discretization schemes for stiff systems of ordinary differential equations (ODEs), su...
In this work we focus on the preconditioning of a Galerkin space–time isogeometric discretization of...
Abstract. Advanced time discretization schemes for stiff systems of ordinary differential equa-tions...
Abstract. A numerical method for solving parabolic equations based on multigrid techniques is propos...
The grid partial analytical solution method is a newly developed unconditionally stable explicit num...
This paper deals with the application of an Alternating Direction Solver (ADS) to a non-stationary l...
In this paper, we use the alternating direction method for isogeometric finite elements to simulate ...
In this paper we present an application of Alternating Direction Implicit (ADI) algorithm for soluti...
AbstractIn this paper we present an application of Alternating Direction Implicit (ADI) algorithm fo...
AbstractThe heat equation is but one example of problems which involve multiple scales. There is a l...
This paper deals with application of Alternating Direction solver (ADS) to nonstationarylinear elast...
Abstract: The research and development of multigrid and explicit-iterative methods for sol...
Completely discrete numerical methods for a nonlinear elliptic-parabolic system, the time-dependent ...
AbstractThis paper considers systems of M parabolic equations, of the form udoti = SijL(uj), where L...
Abstract. Completely discrete numerical methods for a nonlinear elliptic-parabolic system, the time-...
Advanced time discretization schemes for stiff systems of ordinary differential equations (ODEs), su...
In this work we focus on the preconditioning of a Galerkin space–time isogeometric discretization of...
Abstract. Advanced time discretization schemes for stiff systems of ordinary differential equa-tions...
Abstract. A numerical method for solving parabolic equations based on multigrid techniques is propos...
The grid partial analytical solution method is a newly developed unconditionally stable explicit num...
This paper deals with the application of an Alternating Direction Solver (ADS) to a non-stationary l...