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Counting Cases in Marching Cubes: Towards a Generic Algorithm for Producing Substitopes

Article by David C. Banks and Stephen Linton
  • Published in 2003
  • Added on
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We describe how to count the cases that arise in a family of visualization techniques, including marching cubes, sweeping simplices, contour meshing, interval volumes, and separating surfaces. Counting the cases is the first step toward developing a generic visualization algorithm to produce substitopes (geometric substitution of polytopes). We demonstrate the method using a software system ("GAP") for computational group theory. The case-counts are organized into a table that provides taxonomy of members of the family; numbers in the table are derived from actual lists of cases, which are computed by our methods. The calculation confirms previously reported case-counts for large dimensions that are too large to check by hand, and predicts the number of cases that will arise in algorithms that have not yet been invented.

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key
CountingCasesInMarchingCubes
type
article
date_added
2016-09-28
date_published
2003-10-09

BibTeX entry

@article{CountingCasesInMarchingCubes,
	key = {CountingCasesInMarchingCubes},
	type = {article},
	title = {Counting Cases in Marching Cubes: Towards a Generic Algorithm for Producing Substitopes},
	author = {David C. Banks and Stephen Linton},
	abstract = {We describe how to count the cases that arise in a family of visualization techniques, including marching cubes, sweeping simplices, contour meshing, interval volumes, and separating surfaces. Counting the cases is the first step toward developing a generic visualization algorithm to produce substitopes (geometric substitution of polytopes). We demonstrate the method using a software system ("GAP") for computational group theory. The case-counts are organized into a table that provides taxonomy of members of the family; numbers in the table are derived from actual lists of cases, which are computed by our methods. The calculation confirms previously reported case-counts for large dimensions that are too large to check by hand, and predicts the number of cases that will arise in algorithms that have not yet been invented.},
	comment = {},
	date_added = {2016-09-28},
	date_published = {2003-10-09},
	urls = {https://www.evl.uic.edu/cavern/rg/20040525{\_}renambot/Visualization-papers/papers/03/01250354.pdf,http://ieeexplore.ieee.org/document/1250354},
	collections = {Basically computer science},
	url = {https://www.evl.uic.edu/cavern/rg/20040525{\_}renambot/Visualization-papers/papers/03/01250354.pdf http://ieeexplore.ieee.org/document/1250354},
	urldate = {2016-09-28},
	year = 2003
}