The Bayesian image retrieval system, PicHunter: theory, implementation, and psychophysical experiments

Presents the theory, design principles, implementation and performance results of PicHunter, a prototype content-based image retrieval (CBIR) system. In addition, this document presents the rationale, design and results of psychophysical experiments that were conducted to address some key issues tha...

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Bibliographic Details
Published in:IEEE transactions on image processing 2000-01, Vol.9 (1), p.20-37
Main Authors: Cox, I.J., Miller, M.L., Minka, T.P., Papathomas, T.V., Yianilos, P.N.
Format: Article
Language:English
Subjects:
Annotations
Bayesian analysis
Bayesian methods
Content based retrieval
Design engineering
Experiments
Feedback
Image databases
Image retrieval
Information retrieval
Laboratories
Mathematical models
Predictive models
Prototypes
Psychology
Query processing
Retrieval
Searching
Studies
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Summary:Presents the theory, design principles, implementation and performance results of PicHunter, a prototype content-based image retrieval (CBIR) system. In addition, this document presents the rationale, design and results of psychophysical experiments that were conducted to address some key issues that arose during PicHunter's development. The PicHunter project makes four primary contributions to research on CBIR. First, PicHunter represents a simple instance of a general Bayesian framework which we describe for using relevance feedback to direct a search. With an explicit model of what users would do, given the target image they want, PicHunter uses Bayes's rule to predict the target they want, given their actions. This is done via a probability distribution over possible image targets, rather than by refining a query. Second, an entropy-minimizing display algorithm is described that attempts to maximize the information obtained from a user at each iteration of the search. Third, PicHunter makes use of hidden annotation rather than a possibly inaccurate/inconsistent annotation structure that the user must learn and make queries in. Finally, PicHunter introduces two experimental paradigms to quantitatively evaluate the performance of the system, and psychophysical experiments are presented that support the theoretical claims.
ISSN:1057-7149
1941-0042
DOI:10.1109/83.817596