Type
Text
Type
Dissertation
Advisor
Joe Mitchell | Qin, Hong | Xiangmin Jiao | Jeff Ge.
Date
2010-08-01
Keywords
Computer Science
Department
Department of Computer Science
Language
en_US
Source
This work is sponsored by the Stony Brook University Graduate School in compliance with the requirements for completion of degree.
Identifier
http://hdl.handle.net/11401/72704
Publisher
The Graduate School, Stony Brook University: Stony Brook, NY.
Format
application/pdf
Abstract
Multivariate spline technique has proved to be a powerful mathematicaltool for solving variational problems in a great number of researchand engineering tasks, such as computer vision, scientific computing,engineering design, etc. As present, tensor-product B-splines andNURBS are the prevailing industrial standards and have been widelyused in different disciplines. There have been a few new multivariatespline techniques developed recently bestowed with unique andfavorable features, e.g. | triangular B-splines and manifold splines.However, their potentials in facilitating practical scientific andindustrial applications have not yet been fully explored.In this dissertation, we presented a variational framework built upona range of newly proposed multivariate splines, and then applied it tosolve a few research problems in medical imaging, scientific computingand geometric design. More specifically, we introduced a novel imageregistration method empowered by triangular B-splines, which iscapable of modeling local rigidities inside a global non-rigidtransformation. We also developed triangular B-spline finite elementmethod (TBFEM) and solved an elastic problem on a pseudo breast modelfor temporal mammogram registration. Combining B-spline with featuredetection and matching techniques, we proposed a registrationalgorithm that specifically registers mammogram images with littlehuman interventions. In addition, we simulated elastic deformations onthin-shell objects with complicated geometries and arbitrarytopologies, which are rigorously represented by manifold splines.Moreover, we proposed the new RTP-spline, a trivariate spline withrestricted boundaries and defined over polycubic parametric domain. Itis virtually a sub-class of trivariate T-splines, but constructed in adifferent top-down fashion such that semi-standardness can bepreserved via knot insertion and blending function refinement.RTP-splines are featured with the ability of local refinement,restricted boundaries, domain flexibility and efficient evaluation ofbasis functions, all of which would greatly benefit a variety ofapplications working on solid objects and/or volumetric data.Through extensive experiments, we demonstrated that while the uniqueand advantageous properties of those new multivariate splines areexploited and applied to appropriate applications, our proposedframework would turn into an effective and powerful tool for solvingvariational problems in many science and engineering areas.
Recommended Citation
Wang, Kexiang, "A Variational Framework of Multivariate Splines and Its Applications" (2010). Stony Brook Theses and Dissertations Collection, 2006-2020 (closed to submissions). 1907.
https://commons.library.stonybrook.edu/stony-brook-theses-and-dissertations-collection/1907