Vortex flow visualization using tetrahedral cell subdivision

P
PG
1997
Fifth Pacific Conference on Computer Graphics and Applications (PG'97)
Abstract - Vortex flow visualization using tetrahedral cell subdivision

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Fifth Pacific Conference on Computer Graphics and Applications (PG'97)

Seoul, KOREA

October 13-October 16

ISBN: 0-8186-8028-8

	ASCII Text	x
	A. Doi, S. Suzuki, K. Koyamada, S. Sannakanishi, "Vortex flow visualization using tetrahedral cell subdivision," Computer Graphics and Applications, Pacific Conference on, pp. 206, Fifth Pacific Conference on Computer Graphics and Applications (PG'97), 1997.

	BibTex	x
	@article{ 10.1109/PCCGA.1997.626208, author = {A. Doi and S. Suzuki and K. Koyamada and S. Sannakanishi}, title = {Vortex flow visualization using tetrahedral cell subdivision}, journal ={Computer Graphics and Applications, Pacific Conference on}, volume = {0}, year = {1997}, isbn = {0-8186-8028-8}, pages = {206}, doi = {http://doi.ieeecomputersociety.org/10.1109/PCCGA.1997.626208}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Computer Graphics and Applications, Pacific Conference on TI - Vortex flow visualization using tetrahedral cell subdivision SN - 0-8186-8028-8 SP EP A1 - A. Doi, A1 - S. Suzuki, A1 - K. Koyamada, A1 - S. Sannakanishi, PY - 1997 KW - vortices; vortex flow visualization; tetrahedral cell subdivision; critical point searching technique; velocity vector; trilinear interpolation function; hexahedral cell; multiple critical points; linear interpolation function; numerical integration scheme; Newton's method; precise position calculation VL - 0 JA - Computer Graphics and Applications, Pacific Conference on ER -

A. Doi, Iwate Univ., Morioka, Japan

S. Suzuki, Iwate Univ., Morioka, Japan

K. Koyamada, Iwate Univ., Morioka, Japan

S. Sannakanishi, Iwate Univ., Morioka, Japan

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/PCCGA.1997.626208

Proposes an effective technique for searching for critical points, which are points at which the velocity vector is zero. The previous method, using tetrahedral-cell subdivision, often generates multiple critical points in a hexahedral cell, and this causes several defects in flow visualization. First, we propose a new criterion for differences between interpolation functions, and investigate the reasons for the generation of multiple critical points in a hexahedral cell. Next, to prevent the generation of multiple critical points, we propose an improved method using both tetrahedral-cell subdivision and a trilinear interpolation function. Our method finds critical points by using a linear interpolation function, and, when multiple critical points are found in a hexahedral cell, a numerical integration scheme (Newton's method) is applied and a more precise position is calculated. We apply our approach to several sets of velocity data and evaluate it in several ways.

Index Terms:

vortices; vortex flow visualization; tetrahedral cell subdivision; critical point searching technique; velocity vector; trilinear interpolation function; hexahedral cell; multiple critical points; linear interpolation function; numerical integration scheme; Newton's method; precise position calculation

Citation:

A. Doi, S. Suzuki, K. Koyamada, S. Sannakanishi, "Vortex flow visualization using tetrahedral cell subdivision," pg, pp.206, Fifth Pacific Conference on Computer Graphics and Applications (PG'97), 1997

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