Abstract:- In this paper, we introduce a novel technique to improve surface mesh quality while maintaining all essential surface characteristics. In contrast to previous methods we do not constrain node movement to the underlying discrete surface. Instead our approach allows keeping resultant mesh very close to the surface approximated by the original mesh. Proposed method is explicit, that is we do not need any parameterization of the original mesh. All operations are performed directly on the surface. As a result our technique is robust and runs at interactive speeds. Several quantitative measures and error-metrics are presented to prove the effectiveness of proposed technique and compare it with the previous approaches. Key-Words:- Surfa...
none3noThe topology optimization methodology is widely applied in industrial engineering to design l...
In this paper, a new method for optimizing CFD meshes, based on the usage of a geometric quantity ca...
International audienceScientific computing requires the automatic generation of high quality meshes,...
A method to optimize triangular and quadrilateral meshes on parameterized surfaces is proposed. The ...
We present a technique to extend any distortion (quality) measure for planar meshes to meshes on par...
In this paper we present two novel techniques to improve the quality of triangle surface meshes whil...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
Abstract A procedure has been developed to improve polygonal surface mesh quality while maintaining ...
In order to improve the boundary mesh quality while maintaining the essential characteristics of dis...
State of the art algorithms in surface mesh smoothing rely on computing new vertex positions on appr...
Summary. Mesh optimization is critical in numerical simulations involving complex or evolving geomet...
Good parameterizations are of central importance in many digital geometry processing tasks. Typicall...
We present a technique to extend Jacobian-based distortion (quality) measures for planar triangles t...
Various algorithms employed in automated meshing of surfaces often produce distorted elements in the...
While the design step should be free from computational related constraints and operations due to it...
none3noThe topology optimization methodology is widely applied in industrial engineering to design l...
In this paper, a new method for optimizing CFD meshes, based on the usage of a geometric quantity ca...
International audienceScientific computing requires the automatic generation of high quality meshes,...
A method to optimize triangular and quadrilateral meshes on parameterized surfaces is proposed. The ...
We present a technique to extend any distortion (quality) measure for planar meshes to meshes on par...
In this paper we present two novel techniques to improve the quality of triangle surface meshes whil...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
Abstract A procedure has been developed to improve polygonal surface mesh quality while maintaining ...
In order to improve the boundary mesh quality while maintaining the essential characteristics of dis...
State of the art algorithms in surface mesh smoothing rely on computing new vertex positions on appr...
Summary. Mesh optimization is critical in numerical simulations involving complex or evolving geomet...
Good parameterizations are of central importance in many digital geometry processing tasks. Typicall...
We present a technique to extend Jacobian-based distortion (quality) measures for planar triangles t...
Various algorithms employed in automated meshing of surfaces often produce distorted elements in the...
While the design step should be free from computational related constraints and operations due to it...
none3noThe topology optimization methodology is widely applied in industrial engineering to design l...
In this paper, a new method for optimizing CFD meshes, based on the usage of a geometric quantity ca...
International audienceScientific computing requires the automatic generation of high quality meshes,...