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As the size of the available collections of 3D objects grows, database transactions become essential for their management with the key operation being retrieval (query). Large collections are also precategorized into classes so that a single class contains objects of the same type (e.g., human faces, cars, four-legged animals). It is shown that general object retrieval methods are inadequate for intraclass retrieval tasks. We advocate that such intraclass problems require a specialized method that can exploit the basic class characteristics in order to achieve higher accuracy. A novel 3D object retrieval method is presented which uses a parameterized annotated model of the shape of the class objects, incorporating its main characteristics. The annotated subdivision-based model is fitted onto objects of the class using a deformable model framework, converted to a geometry image and transformed into the wavelet domain. Object retrieval takes place in the wavelet domain. The method does not require user interaction, achieves high accuracy, is efficient for use with large databases, and is suitable for nonrigid object classes. We apply our method to the face recognition domain, one of the most challenging intraclass retrieval tasks. We used the Face Recognition Grand Challenge v2 database, yielding an average verification rate of 95.2 percent at <it>10<sup>-3</sup></it> false accept rate. The latest results of our work can be found at
Information search and retrieval, face and gesture recognition.
Theoharis Theoharis, Georgios Passalis, Ioannis A. Kakadiaris, "Intraclass Retrieval of Nonrigid 3D Objects: Application to Face Recognition", IEEE Transactions on Pattern Analysis & Machine Intelligence, vol. 29, no. , pp. 218-229, February 2007, doi:10.1109/TPAMI.2007.37
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