Finite element methods are used in various areas ranging from mechanical engineering to computer graphics and bio-medical applications. In engineering, a critical point is the gap between CAD and CAE. This gap results from different representations used for geometric design and physical simulation. We present two different approaches for using subdivision solids as the only representation for modeling, simulation and visualization. This has the advantage that no data must be converted between the CAD and CAE phases. The first approach is based on an adaptive and feature-preserving tetrahedral subdivision scheme. The second approach is based on Catmull-Clark subdivision solids
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
Computer Aided Design (CAD) and Computer Aided Engineering (CAE) are two significantly different dis...
Finite element methods are used in various areas ranging from mechanical engineering to computer gra...
Finite element methods are used in various areas ranging from mechanical engineering to computer gra...
In the engineering design-analysis process exists a bottleneck which results from different toolsets...
Continuous surface representations, such as B-spline and Non-Uniform Rational B-spline (NURBS) surfa...
We present a volumetric iso-geometric finite element analysis based on Catmull-Clark solids. This co...
We present an adaptive subdivision scheme for unstructured tetrahedral meshes inspired by the √3-sub...
We present an adaptive subdivision scheme for unstructured tetrahedral meshes inspired by the √3-sub...
technical reportThe use of B-spline geometric representation and subdivision mechanism is explored f...
Many engineering design applications require geometric modeling and mechanical simulation of thin fl...
Due to the broad acceptance of CAD-systems based on 3D solids, the geometric data of all common CAE ...
Recent years have witnessed dramatic growth in the use of subdivision schemes for graphical modeling...
In this work we develop a design-through-analysis methodology by extending the concept of the NURBS-...
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
Computer Aided Design (CAD) and Computer Aided Engineering (CAE) are two significantly different dis...
Finite element methods are used in various areas ranging from mechanical engineering to computer gra...
Finite element methods are used in various areas ranging from mechanical engineering to computer gra...
In the engineering design-analysis process exists a bottleneck which results from different toolsets...
Continuous surface representations, such as B-spline and Non-Uniform Rational B-spline (NURBS) surfa...
We present a volumetric iso-geometric finite element analysis based on Catmull-Clark solids. This co...
We present an adaptive subdivision scheme for unstructured tetrahedral meshes inspired by the √3-sub...
We present an adaptive subdivision scheme for unstructured tetrahedral meshes inspired by the √3-sub...
technical reportThe use of B-spline geometric representation and subdivision mechanism is explored f...
Many engineering design applications require geometric modeling and mechanical simulation of thin fl...
Due to the broad acceptance of CAD-systems based on 3D solids, the geometric data of all common CAE ...
Recent years have witnessed dramatic growth in the use of subdivision schemes for graphical modeling...
In this work we develop a design-through-analysis methodology by extending the concept of the NURBS-...
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
For linear elastic problems, it is well-known that mesh generation dominates the total analysis time...
Computer Aided Design (CAD) and Computer Aided Engineering (CAE) are two significantly different dis...