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Efficient and Invariant Regularisation with Application to Computer Graphics

2008

Thesis

ei


This thesis develops the theory and practise of reproducing kernel methods. Many functional inverse problems which arise in, for example, machine learning and computer graphics, have been treated with practical success using methods based on a reproducing kernel Hilbert space perspective. This perspective is often theoretically convenient, in that many functional analysis problems reduce to linear algebra problems in these spaces. Somewhat more complex is the case of conditionally positive definite kernels, and we provide an introduction to both cases, deriving in a particularly elementary manner some key results for the conditionally positive definite case. A common complaint of the practitioner is the long running time of these kernel based algorithms. We provide novel ways of alleviating these problems by essentially using a non-standard function basis which yields computational advantages. That said, by doing so we must also forego the aforementioned theoretical conveniences, and hence need some additional analysis which we provide in order to make the approach practicable. We demonstrate that the method leads to state of the art performance on the problem of surface reconstruction from points. We also provide some analysis of kernels invariant to transformations such as translation and dilation, and show that this indicates the value of learning algorithms which use conditionally positive definite kernels. Correspondingly, we provide a few approaches for making such algorithms practicable. We do this either by modifying the kernel, or directly solving problems with conditionally positive definite kernels, which had previously only been solved with positive definite kernels. We demonstrate the advantage of this approach, in particular by attaining state of the art classification performance with only one free parameter.

Author(s): Walder, CJ.
Year: 2008
Month: January
Day: 1

Department(s): Empirische Inferenz
Bibtex Type: Thesis (phdthesis)

School: Biologische Kybernetik

Degree Type: PhD
Digital: 0
Institution: University of Queensland, Brisbane, Australia
Language: en

Links: PDF

BibTex

@phdthesis{5600,
  title = {Efficient and Invariant Regularisation with Application to Computer Graphics},
  author = {Walder, CJ.},
  institution = {University of Queensland, Brisbane, Australia},
  school = {Biologische Kybernetik},
  month = jan,
  year = {2008},
  month_numeric = {1}
}