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Proceedings Paper

Optimizing context-based stereo using genetic feature selection
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Paper Abstract

This paper deals with the recovery of a scene from a pair of images, where each image is acquired from a different viewpoint. The central problem is the identification of corresponding points in all views. We use the feature-based approach to find corresponding points. Various types of features have been used previously, where Gabor features showed significant advantages in terms of accuracy and the complexity/accuracy trade-off. The accuracy is measured as the rate of correctly associated pixels. The matching process typically results in a certain number of ambiguous positions, where the best match found is not the desired match. The main contribution of this paper lies in the application of a genetic algorithm for feature selection. This method uses the previously illustrated fact that the amount of ambiguity in the matching process can be quantitatively measured via statistics on the back-matching distances. With this method, the quality of a matching result can be measured without reference disparity data (or ground truth). The fitness function required for the application of genetic feature optimization is defined using these back-matching statistics. The output of the genetic algorithm is an improved feature set, which contains fewer features as the initial set, but yields extremely improved accuracy. We show that the accuracy of the matching result can be much improved by our genetic optimization approach, and we describe the experiments illustrating the results.

Paper Details

Date Published: 26 September 1997
PDF: 12 pages
Proc. SPIE 3208, Intelligent Robots and Computer Vision XVI: Algorithms, Techniques, Active Vision, and Materials Handling, (26 September 1997); doi: 10.1117/12.290294
Show Author Affiliations
Oliver Sidla, Joanneum Research Institute (Austria)
Wolfgang Poelzleitner, Technical Univ. Graz (Austria)


Published in SPIE Proceedings Vol. 3208:
Intelligent Robots and Computer Vision XVI: Algorithms, Techniques, Active Vision, and Materials Handling
David P. Casasent, Editor(s)

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