In this paper we focus on automatically learning object models in the framework of keypoint based object recognition. The proposed method uses a collection of views of the objects to build the model. For each object the collection is composed of N×M views obtained rotating the object around its vertical and horizontal axis. As keypoint based object recognition using a complete set of views is computationally expensive, we focused on the definition of a selection method that creates, for each object, a subset of the initial views that visually summarize the characteristics of the object and should be suited for recognition. We select the views by determining maxima and minima of a function, based on the number of SIFT descriptors able to evaluate views similarity and relevance. Experimental results for recognition on a publicly available dataset are reported.
Bruno, A., Greco, L., La Cascia, M. (2016). Views selection for SIFT based object modeling and recognition. In 2016 IEEE 12th Image, Video, and Multidimensional Signal Processing Workshop (IVMSP) (pp. 1-5). Institute of Electrical and Electronics Engineers Inc. [10.1109/IVMSPW.2016.7528176].
Views selection for SIFT based object modeling and recognition
BRUNO, Alessandro;GRECO, Luca;LA CASCIA, Marco
2016-01-01
Abstract
In this paper we focus on automatically learning object models in the framework of keypoint based object recognition. The proposed method uses a collection of views of the objects to build the model. For each object the collection is composed of N×M views obtained rotating the object around its vertical and horizontal axis. As keypoint based object recognition using a complete set of views is computationally expensive, we focused on the definition of a selection method that creates, for each object, a subset of the initial views that visually summarize the characteristics of the object and should be suited for recognition. We select the views by determining maxima and minima of a function, based on the number of SIFT descriptors able to evaluate views similarity and relevance. Experimental results for recognition on a publicly available dataset are reported.File | Dimensione | Formato | |
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