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SMI
2005
IEEE
2005
IEEE
Maximizing Adaptivity in Hierarchical Topological Models
We present an approach to hierarchically encode the topology of functions over triangulated surfaces. We describe the topology of a function by its Morse-Smale complex, a well known structure in computational topology. Following concepts of Morse theory, a Morse-Smale complex (and therefore a function’s topology) can be simplified by successively canceling pairs of critical points. We demonstrate how cancellations can be effectively encoded to produce a highly adaptive topology-based multi-resolution representation of a given function. Contrary to the approach of [4] we avoid encoding the complete complex in a traditional mesh hierarchy. Instead, we encode a reduced complex created by disregarding some topological constraints on the complex. The corresponding data is stored separately in a structure called cancellation forest. Conceptually, a cancellation forest consists of sets of critical points governed by the concepts of Morse theory. The combination of this new structure with ...
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| Added | 25 Jun 2010 |
| Updated | 25 Jun 2010 |
| Type | Conference |
| Year | 2005 |
| Where | SMI |
| Authors | Peer-Timo Bremer, Valerio Pascucci, Bernd Hamann |
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