Add to ORKGWe propose to use a moving mesh approach, a popular grid adaption technique in computational mechanics, for fast generating low-stretch mesh parameterizations. Given a triangle mesh approximating a surface, we construct an initial parameterization of the mesh and then improve the parameterization gradually. At each improvement step, we optimize the parameterization generated at the previous step by minimizing a weighted quadratic energy where the weights are chosen in order to minimize the parameterization stretch. This optimization procedure does not generate triangle flips if the boundary of the parameter domain is a convex polygon. Moreover already the first optimization step produces a high-quality mesh parameterization. We compare our ...
Surface parameterization is necessary for many graphics tasks: texture-preserving simplification, re...
Abstract A new mesh optimization framework for 3D triangular surface meshes is presented, which form...
Despite the increasing popularity of high-order methods in computational fluid dynamics, their appli...
We propose to use a moving mesh approach, a popular grid adaption technique in computational mechani...
We propose a fast and simple method for generating a low-stretch mesh parameterization. Given a tria...
http://portal.acm.org/Mesh parameterization has been a very active research topic for the last sever...
Abstract: Providing fast and accurate simplification method for large polygon mesh is one of the mo...
We present a method for solving the following problem: Given a set of data points scattered in three...
International audienceWe describe a method to compute conformal parameterizations with a natural bou...
104 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In the third part, we deal ex...
We present a general framework for post-processing and optimizing surface meshes with respect to var...
AbstractMany phenomena in the applied and natural sciences occur on surfaces. To solve accurately th...
We present two complementary methods for automati-cally improving mesh parameterizations and demonst...
A method to optimize triangular and quadrilateral meshes on parameterized surfaces is proposed. The ...
Surface parameterization is necessary for many graphics tasks: texture-preserving simplification, re...
Abstract A new mesh optimization framework for 3D triangular surface meshes is presented, which form...
Despite the increasing popularity of high-order methods in computational fluid dynamics, their appli...
We propose to use a moving mesh approach, a popular grid adaption technique in computational mechani...
We propose a fast and simple method for generating a low-stretch mesh parameterization. Given a tria...
http://portal.acm.org/Mesh parameterization has been a very active research topic for the last sever...
Abstract: Providing fast and accurate simplification method for large polygon mesh is one of the mo...
We present a method for solving the following problem: Given a set of data points scattered in three...
International audienceWe describe a method to compute conformal parameterizations with a natural bou...
104 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.In the third part, we deal ex...
We present a general framework for post-processing and optimizing surface meshes with respect to var...
AbstractMany phenomena in the applied and natural sciences occur on surfaces. To solve accurately th...
We present two complementary methods for automati-cally improving mesh parameterizations and demonst...
A method to optimize triangular and quadrilateral meshes on parameterized surfaces is proposed. The ...
Surface parameterization is necessary for many graphics tasks: texture-preserving simplification, re...
Abstract A new mesh optimization framework for 3D triangular surface meshes is presented, which form...
Despite the increasing popularity of high-order methods in computational fluid dynamics, their appli...