Title :
Construction of biological surface models from cross-sections image processing
Author :
Odesanya, Olalekan S. ; Waggenspack, Warren N., Jr. ; Thompson, David E.
Author_Institution :
Dept. of Mech. Eng., Louisiana State Univ., Baton Rouge, LA, USA
fDate :
4/1/1993 12:00:00 AM
Abstract :
An approach improving on existing techniques is presented for blending cross-sections of biological objects to produce a polynomial surface model. As intermediate steps to the final surface skinning, representative data points on the cross-sections are selected for defining piecewise cubic B-splines providing an immediate reduction in storage and computational requirements for the contour representation of the objects. A mesh of quadrilateral patches is subsequently formed over adjacent cross-sections using bicubic B-spline surfaces which exhibit second parametric derivative continuity. The surface model provides a complete and robust representation with significant data reduction. The resulting algorithm is demonstrated using bone data for a human hand.
Keywords :
medical image processing; physiological models; algorithm; cross-sections blending; human hand bone data; image processing; medical image processing; parametric derivative continuity; piecewise cubic B-splines; polynomial surface model; quadrilateral patches mesh; representative data points; surface skinning; Biological system modeling; Biology computing; Biomedical imaging; Bones; Computed tomography; Data visualization; Humans; Image processing; Magnetic resonance imaging; Polynomials; Robustness; Solid modeling; Spline; Surface fitting; Biomechanics; Bone and Bones; Computer Graphics; Computer Simulation; Hand; Humans; Image Processing, Computer-Assisted; Models, Biological; Surface Properties;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
