NCSU Institutional Repository >
NC State Theses and Dissertations >
Dissertations >

Please use this identifier to cite or link to this item:

Title: On Shape Description and Optimization for Object Classification
Authors: Poliannikov, Oleg V.
Advisors: J. Keith Townsend, Committee Member
Brian L. Hughes, Committee Member
Hamid Krim, Committee Chair
Jean-Pierre Fouque, Committee Member
Keywords: computer vision
shape analysis
simulated annealing
Issue Date: 4-Jun-2003
Degree: PhD
Discipline: Electrical Engineering
Abstract: The purpose of this thesis has been to study several problems typical for shape analysis, computer vision and image processing in general. First, a problem of sampling planar shape and continuous curves is considered. It has been shown that samples of a discrete curve or a surface should contain the information about the object itself as well as the coordinate system used to produce a functional parameterization. The sampling algorithm has been designed as a two-cost optimization problem. Secondly, we have proposed a new algorithmic approach to implementing a simulated annealing type of optimization, which is based on the notion of scale. The scale is defined as a unit time interval used when converting a continuous-time evolution into a discrete one. It has been shown that by varying the scale as opposed to keeping it constant, one can achieve a better performance of an optimization algorithm, all in the absence of a complicated acceptance/rejection Markov chain mechanism. Finally, we have studied the problem of identification of symmetric planar shapes from a single view. It has been shown that the proposed notion of a skeleton of an arbitrary view of the shape is instrumental in constructing invariants enabling us to perform identification. It has further been demonstrated that for the case of noisy data one can describe the distribution of the skeleton points and thus construct an optimal skeleton estimation technique.
Appears in Collections:Dissertations

Files in This Item:

File Description SizeFormat
etd.pdf1.01 MBAdobe PDFView/Open

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.