Add to ORKGIn this study we will consider moving mesh methods for solving one-dimensional time dependent PDEs. The solution and mesh are obtained simultaneously by solving a system of differential-algebraic equations. The differential equations involve the solution and the mesh, while the algebraic equations involve several geometrical variables such as theta (the tangent angle), U (the normal velocity of the solution curve) and T (tangent velocity). The equal-arclength principle is employed to give a close form for T. For viscous conservation Laws, we prove rigorously that the proposed system of moving mesh equations is well-posed, in the sense that first order perturbations for the solution and mesh can be controlled by the initial perturbation. Sev...
Numerical experiments are described which illustrate some important features of the performance of m...
We propose a moving mesh adaptive approach for solving time-dependent partial differential equations...
The moving mesh finite element method of Baines, Hubbard and Jimack [1] determines mesh velocities b...
It is well-known that moving mesh and upwinding schemes are two kinds of techniques for tracking the...
One of the advantages of moving mesh methods for the numerical solution of partial dif- ferential eq...
Summary. We propose a new moving mesh method suitable for solving time-dependent partial differentia...
We develop an adaptive method for solving one-dimensional systems of hyperbolic conservation laws th...
This article describes a number of velocity-based moving mesh numerical methods for multidimensional...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
We develop efficient moving mesh algorithms for one- and two-dimensional hyperbolic systems of conse...
The moving mesh finite element method of Baines, Hubbard and Jimack [1] determines mesh velocities b...
Numerical experiments are described which illustrate some important features of the performance of m...
The general idea of moving mesh approaches is to improve the approximation quality and the numerical...
Numerical experiments are described which illustrate some important features of the performance of m...
Numerical experiments are described which illustrate some important features of the performance of m...
We propose a moving mesh adaptive approach for solving time-dependent partial differential equations...
The moving mesh finite element method of Baines, Hubbard and Jimack [1] determines mesh velocities b...
It is well-known that moving mesh and upwinding schemes are two kinds of techniques for tracking the...
One of the advantages of moving mesh methods for the numerical solution of partial dif- ferential eq...
Summary. We propose a new moving mesh method suitable for solving time-dependent partial differentia...
We develop an adaptive method for solving one-dimensional systems of hyperbolic conservation laws th...
This article describes a number of velocity-based moving mesh numerical methods for multidimensional...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
We develop efficient moving mesh algorithms for one- and two-dimensional hyperbolic systems of conse...
The moving mesh finite element method of Baines, Hubbard and Jimack [1] determines mesh velocities b...
Numerical experiments are described which illustrate some important features of the performance of m...
The general idea of moving mesh approaches is to improve the approximation quality and the numerical...
Numerical experiments are described which illustrate some important features of the performance of m...
Numerical experiments are described which illustrate some important features of the performance of m...
We propose a moving mesh adaptive approach for solving time-dependent partial differential equations...
The moving mesh finite element method of Baines, Hubbard and Jimack [1] determines mesh velocities b...