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Titolo: Anisotropic diffusion in vector field visualization on Euclidean domains and surfaces
Autore: Diewald, U; Preusser, T; Rumpf, M;
 Indirizzi:
 Univ Bonn, Inst Appl Math, D53115 Bonn, Germany Univ Bonn Bonn Germany D53115 nn, Inst Appl Math, D53115 Bonn, Germany
 Titolo Testata:
 IEEE TRANSACTIONS ON VISUALIZATION AND COMPUTER GRAPHICS
fascicolo: 2,
volume: 6,
anno: 2000,
pagine: 139  149
 SICI:
 10772626(200004/06)6:2<139:ADIVFV>2.0.ZU;2X
 Fonte:
 ISI
 Lingua:
 ENG
 Soggetto:
 IMAGE;
 Keywords:
 flow visualization; multiscale; nonlinear diffusion; segmentation;
 Tipo documento:
 Article
 Natura:
 Periodico
 Settore Disciplinare:
 Engineering, Computing & Technology
 Citazioni:
 28
 Recensione:
 Indirizzi per estratti:
 Indirizzo: Diewald, U Univ Bonn, Inst Appl Math, Wegelstr 6, D53115 Bonn, Germany Univ Bonn Wegelstr 6 Bonn Germany D53115 53115 Bonn, Germany



 Citazione:
 U. Diewald et al., "Anisotropic diffusion in vector field visualization on Euclidean domains and surfaces", IEEE VIS C, 6(2), 2000, pp. 139149
Abstract
Vector field visualization is an important topic in scientific visualization. Its aim is to graphically represent field data on two and threedimensional domains and on surfaces in an intuitively understandable way. Here, a new approach based on anisotropic nonlinear diffusion is introduced. It enables an easy perception of vector field data and serves as an appropriate scale space method for the visualization of complicated flow pattern. The approach is closely related to nonlinear diffusion methods in image analysis where images are smoothed while still retaining and enhancing edges. Here, an initial noisy image intensity is smoothed along integral lines, whereas the image is sharpened in the orthogonal direction. The method is based on a continuous model and requires the solution of a parabolic PDE problem. Itis discretized only in the final implementational step. Therefore, many important qualitative aspects can already be discussed on a continuous level. Applications are shown for flow fields in 2D and 3D,as well as for principal directions of curvature on general triangulated surfaces. Furthermore, the provisions for flow segmentation are outlined.
ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 01/04/20 alle ore 11:34:02