Title :
Generation of 3D isosurfaces by means of the marching cube algorithm
Author :
Bartsch, Michael ; Weiland, Thomas ; Witting, Martin
Author_Institution :
Comput. Simulation Technol., CST GmbH, Darmstadt, Germany
fDate :
5/1/1996 12:00:00 AM
Abstract :
Within the electromagnetic computer-aided design the postprocessing and visualisation of vector and scalar fields is one of the most important applications. This paper deals with the 3-dimensional generation of isosurfaces for solutions of finite element (FE) and finite difference (FD) systems by means of the marching cube algorithm. It is shown how to obtain triangulated surfaces for scalar fields. Cube or HE-8 hexahedral elements with 6 faces and 8 nodes are used as base cells for the surface subtriangulation. In conjunction with an edge-orientated field allocation, unique surface triangulations are found which maintain the basic properties of fields and surfaces. Examples showing the components or the absolute of vector fields, potentials, temperature distributions, and far field patterns illustrate the quality and functionality of the method
Keywords :
CAD; data visualisation; electric potential; electrical engineering; electrical engineering computing; electromagnetic fields; finite difference methods; finite element analysis; surface potential; temperature distribution; 3-dimensional generation; 3D isosurfaces generation; edge orientated field allocation; electromagnetic computer-aided design; far field patterns; finite difference systems; finite element systems; hexahedral elements; marching cube algorithm; nodes; postprocessing; potentials; scalar fields visualisation; surface subtriangulation; surface triangulations; temperature distributions; triangulated surfaces; vector fields visualisation; Application software; Computed tomography; Computer simulation; Data visualization; Design automation; Electromagnetic fields; Finite difference methods; Finite element methods; Iron; Isosurfaces; Stress; Temperature; Temperature distribution; Visualization;
Journal_Title :
Magnetics, IEEE Transactions on
