Streamline-based topological graph construction with application to self-animated images

Streamline-based topological graph construction with application to self-animated images
Renata Nascimento, Thomas Lewiner

Abstract:

Vector field analysis and visualization is a fundamental tool in science and engineering applications, raising the need for robust methods to capture and represent the global vector field behavior. One such representation, the topological graph, partitions the domain into regions where the flow of the vector field is homogeneous.
This work introduces a topological graph construction based on streamlines. It is guaranteed to produce a coherent result even when some singularities are not detected. This work also details an application of topological graphs to improve the generation of self-animated images. In this application, the streamline-based approach carries almost no overhead, since self-animated images already rely on streamlines, but leads to a threefold speed-up of the core processing..

Downloads:

PDF paper (18.9 MB)
Poster in PDF (14.4 MB)

BibTeX:

@inproceedings{topo_graph_sibgrapi,
    author = {Renata Nascimento and Thomas Lewiner},
    title = {Streamline-based topological graph construction with application to self-animated images},
    year = {2013},
    month = {august},
    booktitle = {Sibgrapi 2013 (XXVI Conference on Graphics, Patterns and Images)},
    pages = {296--303},
    publisher = {IEEE},
    address = {Arequipa, Peru},
    doi = {10.1109/SIBGRAPI.2013.48},
    url = {\url{http://thomas.lewiner.org/pdfs/topo_graph_sibgrapi.pdf}}
}