1. Population-based incremental interactive concept learning for image retrieval by stochastic string segmentations
- Author
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Ghebreab, Sennay, Jaffe, C. Carl, and Smeulders, Arnold W.M.
- Subjects
Diagnostic imaging -- Research ,Business ,Electronics ,Electronics and electrical industries ,Health care industry - Abstract
We propose a method for concept-based medical image retrieval that is a superset of existing semantic-based image retrieval methods. We conceive of a concept as an incremental and interactive formalization of the user's conception of an object in an image. The premise is that such a concept is closely related to a user's specific preferences and subjectivity and, thus, allows to deal with the complexity and content-dependency of medical image content. We describe an object in terms of multiple continuous boundary features and represent an object concept by the stochastic characteristics of an object population. A population-based incrementally learning technique, in combination with relevance feedback, is then used for concept customization. The user determines the speed and direction of concept customization using a single parameter that defines the degree of exploration and exploitation of the search space. Images are retrieved from a database in a limited number of steps based upon the customized concept. To demonstrate our method we have performed concept-based image retrieval on a database of 292 digitized X-ray images of cervical vertebrae with a variety of abnormalities. The results show that our method produces precise and accurate results when doing a direct search. In an open-ended search our method efficiently and effectively explores the search space. Index Terms--Content-based image retrieval, multifeature object description, population-based incremental learning, relevance feedback, visual concept learning.
- Published
- 2004