To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geometry while preserving the sharp features and smooth regions of the model, we propose a new fast curving method based on hierarchical subdivision and blending. There is no need for underlying target geometry. It is only required a straight-edged mesh with boundary entities marked to characterize the geometry features, and a list of features to recast through a unique sharp-to-smooth modeling capability. The examples show that the method is well-suited to curve large quadratic and quartic meshes in low-memory configurations
We present a novel methodology to generate curved high-order meshes featuring optimal mesh quality a...
In this work, we are interested in the mesh generation problem for simulation of compressible fluids...
In geometric modeling, we always want our geometric model to looks as realistic as the real world. I...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geome...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geomet...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geomet...
We present a nodal interpolation method to approximate a subdivision model. The main application is...
We propose a 3D mesh curving method that converts a straight-sided mesh to an optimal-quality curved...
A parallel distributed approach to refine a mesh while preserving the curvature of a target geometry...
We present a nodal interpolation method to approximate a subdivision model. The main application is ...
Barcelona Supercomputing CenterIn this work, two new methods are presented: first, a given linear te...
This is the accepted version of the following article: [Gargallo-Peiró, A., Roca, X., Peraire, J., a...
Various 3D acquisition, analysis, visualization and compression approaches sample surfaces of 3D sha...
In the last years, high-order methods are emerging to simulate physical phenomena in appliedsciences...
We present a novel methodology to generate curved high-order meshes featuring optimal mesh quality a...
We present a novel methodology to generate curved high-order meshes featuring optimal mesh quality a...
In this work, we are interested in the mesh generation problem for simulation of compressible fluids...
In geometric modeling, we always want our geometric model to looks as realistic as the real world. I...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geome...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geomet...
To provide straight-edged and curved piece-wise polynomial meshes that target a unique smooth geomet...
We present a nodal interpolation method to approximate a subdivision model. The main application is...
We propose a 3D mesh curving method that converts a straight-sided mesh to an optimal-quality curved...
A parallel distributed approach to refine a mesh while preserving the curvature of a target geometry...
We present a nodal interpolation method to approximate a subdivision model. The main application is ...
Barcelona Supercomputing CenterIn this work, two new methods are presented: first, a given linear te...
This is the accepted version of the following article: [Gargallo-Peiró, A., Roca, X., Peraire, J., a...
Various 3D acquisition, analysis, visualization and compression approaches sample surfaces of 3D sha...
In the last years, high-order methods are emerging to simulate physical phenomena in appliedsciences...
We present a novel methodology to generate curved high-order meshes featuring optimal mesh quality a...
We present a novel methodology to generate curved high-order meshes featuring optimal mesh quality a...
In this work, we are interested in the mesh generation problem for simulation of compressible fluids...
In geometric modeling, we always want our geometric model to looks as realistic as the real world. I...