Default reasoning for forensic visual surveillance based on subjective logic and its comparison with L-fuzzy set based approaches

Seunghan Han, Walter Stechele

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

Default reasoning can provide a means of deriving plausible semantic conclusion under imprecise and contradictory information in forensic visual surveillance. In such reasoning under uncertainty, proper uncertainty handling formalism is required. A discrete species of Bilattice for multivalued default logic demonstrated default reasoning in visual surveillance. In this article, the authors present an approach to default reasoning using subjective logic that acts in a continuous space. As an uncertainty representation and handling formalism, subjective logic bridges Dempster Shafer belief theory and second order Bayesian, thereby making it attractive tool for artificial reasoning. For the verification of the proposed approach, the authors extend the inference scheme on the bilattice for multivalued default logic to L-fuzzy set based logics that can be modeled with continuous species of bilattice structures. The authors present some illustrative case studies in visual surveillance scenarios to contrast the proposed approach with L-fuzzy set based approaches.

Original languageEnglish
Title of host publicationMultimedia Data Engineering Applications and Processing
PublisherIGI Global
Pages51-94
Number of pages44
ISBN (Electronic)9781466629417
ISBN (Print)1466629401, 9781466629400
DOIs
StatePublished - 28 Feb 2013

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