textComputational grid optimization, correction, improvement and remeshing techniques have become increasingly important as the application problem and domain complexity in creases. It is well recognized that distorted elements may degrade accuracy of finite element and finite volume simulations or cause them to fail. Hence, automatically generated grids containing millions of cells, created to fit a domain with complex geometry and adapt to features of different scales, often require correction before they can be effectively used for a numerical simulation. In this work a new variational grid smoothing formulation is devel oped and an extensive study of its mathematical properties, applicability and limitations is performed. The approac...
AbstractThe construction of two- and three-dimensional computational grids using linear variational ...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
AbstractThe present paper is devoted to the development of a system of partial differential equation...
textComputational grid optimization, correction, improvement and remeshing techniques have become i...
There are numerous large-scale applications requiring mesh adaptivity, e.g., computational fluid dyn...
There are numerous scientific applications which require large and complex meshes. Given the explos...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
In this paper, we introduce two new functionals within the context of the variational grid generatio...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
AbstractA new method (adaptive smoothness functional) to produce convex and smooth grids over genera...
AbstractIn the paper the elliptic variational grid generation technique based on methods of optimal ...
We consider a local optimization technique, where starting from a preliminary version of the grid un...
We present a new cell-area equidistribution method for two- dimensional grid adaptation [1]. The met...
We propose a new optimization strategy for unstructured meshes that, when coupled with existing auto...
Viewgraphs on Cartesian-cell based grid generation and adaptive mesh refinement are presented. Topic...
AbstractThe construction of two- and three-dimensional computational grids using linear variational ...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
AbstractThe present paper is devoted to the development of a system of partial differential equation...
textComputational grid optimization, correction, improvement and remeshing techniques have become i...
There are numerous large-scale applications requiring mesh adaptivity, e.g., computational fluid dyn...
There are numerous scientific applications which require large and complex meshes. Given the explos...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
In this paper, we introduce two new functionals within the context of the variational grid generatio...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
AbstractA new method (adaptive smoothness functional) to produce convex and smooth grids over genera...
AbstractIn the paper the elliptic variational grid generation technique based on methods of optimal ...
We consider a local optimization technique, where starting from a preliminary version of the grid un...
We present a new cell-area equidistribution method for two- dimensional grid adaptation [1]. The met...
We propose a new optimization strategy for unstructured meshes that, when coupled with existing auto...
Viewgraphs on Cartesian-cell based grid generation and adaptive mesh refinement are presented. Topic...
AbstractThe construction of two- and three-dimensional computational grids using linear variational ...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
AbstractThe present paper is devoted to the development of a system of partial differential equation...