Distance-field based skeletons for virtual navigation

Author

Wan, Ming ; Dachille, Frank ; Kaufman, Arie

Author_Institution

Boeing Co., Seattle, WA, USA

fYear

0

fDate

0-0 0

Firstpage

239

Lastpage

560

Abstract

We present a generic method for rapid flight planning, virtual navigation and effective camera control in a volumetric environment. Directly derived from an accurate distance from boundary (DFB) field, our automatic path planning algorithm rapidly generates centered flight paths, a skeleton, in the navigable region of the virtual environment. Based on precomputed flight paths and the DFB field, our dual-mode physically based camera control model supports a smooth, safe, and sticking-free virtual navigation with six degrees of freedom. By using these techniques, combined with accelerated volume rendering, we have successfully developed a real-time virtual colonoscopy system on low-cost PCs and confirmed the high speed, high accuracy and robustness of our techniques on more than 40 patient datasets.

Keywords

image thinning; virtual reality; DFB field; distance-field based skeletons; distance-from-boundary field; dual-mode physically-based camera control model; effective camera control; low-cost PC; rapid flight planning; real-time virtual colonoscopy system; virtual navigation; volumetric environment; Acceleration; Automatic control; Cameras; Navigation; Path planning; Personal communication networks; Real time systems; Skeleton; Virtual colonoscopy; Virtual environment;

fLanguage

English

Publisher

ieee

Conference_Titel

Visualization, 2001. VIS '01. Proceedings

Conference_Location

San Diego, CA, USA

Print_ISBN

0-7803-7201-8

Type

conf

DOI

10.1109/VISUAL.2001.964517

Filename

964517