Volume rendering in radiation treatment planning

Marc Levoy; Henry Fuchs; Stephen M. Pizer; Julian Rosenman; Edward L. Chaney; George W. Sherouse; Victoria Interrante; Jeffrey Kiel

Volume rendering in radiation treatment planning

Marc Levoy, Henry Fuchs, Stephen M. Pizer, Julian Rosenman, Edward L. Chaney, George W. Sherouse, Victoria Interrante, Jeffrey Kiel

Center for Cognitive Sciences

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

31 Scopus citations

Abstract

Successful treatment planning in radiation therapy depends in part on understanding the spatial relationship between patient anatomy and the distribution of radiation dose. Several visualizations based on volume rendering that offer potential solutions to this problem are presented. The visualizations use region boundary surfaces to display anatomy, polygonal meshes to display treatment beams, and isovalue contour surfaces to display dose. To improve perception of spatial relationships, metallic shading, surface and solid texturing, synthetic fog, shadows, and other artistic devices are used. Also outlined is a method based on 3-D mip maps for efficiently generating perspective volume renderings and beam's-eye views.

Original language	English (US)
Title of host publication	Proceedings of the First Conference on Visualization in Biomedical Computing
Publisher	Publ by IEEE
Pages	4-10
Number of pages	7
ISBN (Print)	0818620390
State	Published - Dec 1 1990
Event	Proceedings of the First Conference on Visualization in Biomedical Computing - VBC '90 - Atlanta, GA, USA Duration: May 22 1990 → May 25 1990

Other

Other	Proceedings of the First Conference on Visualization in Biomedical Computing - VBC '90
City	Atlanta, GA, USA
Period	5/22/90 → 5/25/90

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title = "Volume rendering in radiation treatment planning",

abstract = "Successful treatment planning in radiation therapy depends in part on understanding the spatial relationship between patient anatomy and the distribution of radiation dose. Several visualizations based on volume rendering that offer potential solutions to this problem are presented. The visualizations use region boundary surfaces to display anatomy, polygonal meshes to display treatment beams, and isovalue contour surfaces to display dose. To improve perception of spatial relationships, metallic shading, surface and solid texturing, synthetic fog, shadows, and other artistic devices are used. Also outlined is a method based on 3-D mip maps for efficiently generating perspective volume renderings and beam's-eye views.",

author = "Marc Levoy and Henry Fuchs and Pizer, {Stephen M.} and Julian Rosenman and Chaney, {Edward L.} and Sherouse, {George W.} and Victoria Interrante and Jeffrey Kiel",

year = "1990",

month = dec,

day = "1",

language = "English (US)",

isbn = "0818620390",

pages = "4--10",

booktitle = "Proceedings of the First Conference on Visualization in Biomedical Computing",

publisher = "Publ by IEEE",

note = "Proceedings of the First Conference on Visualization in Biomedical Computing - VBC '90 ; Conference date: 22-05-1990 Through 25-05-1990",

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TY - GEN

T1 - Volume rendering in radiation treatment planning

AU - Levoy, Marc

AU - Fuchs, Henry

AU - Pizer, Stephen M.

AU - Rosenman, Julian

AU - Chaney, Edward L.

AU - Sherouse, George W.

AU - Interrante, Victoria

AU - Kiel, Jeffrey

PY - 1990/12/1

Y1 - 1990/12/1

N2 - Successful treatment planning in radiation therapy depends in part on understanding the spatial relationship between patient anatomy and the distribution of radiation dose. Several visualizations based on volume rendering that offer potential solutions to this problem are presented. The visualizations use region boundary surfaces to display anatomy, polygonal meshes to display treatment beams, and isovalue contour surfaces to display dose. To improve perception of spatial relationships, metallic shading, surface and solid texturing, synthetic fog, shadows, and other artistic devices are used. Also outlined is a method based on 3-D mip maps for efficiently generating perspective volume renderings and beam's-eye views.

AB - Successful treatment planning in radiation therapy depends in part on understanding the spatial relationship between patient anatomy and the distribution of radiation dose. Several visualizations based on volume rendering that offer potential solutions to this problem are presented. The visualizations use region boundary surfaces to display anatomy, polygonal meshes to display treatment beams, and isovalue contour surfaces to display dose. To improve perception of spatial relationships, metallic shading, surface and solid texturing, synthetic fog, shadows, and other artistic devices are used. Also outlined is a method based on 3-D mip maps for efficiently generating perspective volume renderings and beam's-eye views.

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UR - http://www.scopus.com/inward/citedby.url?scp=0025555028&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:0025555028

SN - 0818620390

SP - 4

EP - 10

BT - Proceedings of the First Conference on Visualization in Biomedical Computing

PB - Publ by IEEE

T2 - Proceedings of the First Conference on Visualization in Biomedical Computing - VBC '90

Y2 - 22 May 1990 through 25 May 1990

ER -

Volume rendering in radiation treatment planning

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