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Title:      POINT-BASED SIMILARITY ESTIMATION BETWEEN 2.5D VISUAL HULLS AND 3D OBJECTS
Author(s):      Konstantinos Moustakas, Georgios Stavropoulos, Dimitrios Tzovaras
ISBN:      978-972-8939-48-9
Editors:      Yingcai Xiao
Year:      2011
Edition:      Single
Keywords:      Range image, 3D object classification, protrusion map, salient features, visual hull.
Type:      Full Paper
First Page:      91
Last Page:      98
Language:      English
Cover:      cover          
Full Contents:      click to dowload Download
Paper Abstract:      This paper presents a novel framework for point-based similarity estimation between 3D objects and 2.5D visual hulls. Initially, the protrusion map is estimated for both the visual hull that is generated by a range image and the 3D model that is followed by the extraction of the salient features that correspond to the highly protruding areas of the objects. Then, based on the concept that for a 3D object and a corresponding query range image, there should be a virtual camera with such intrinsic and extrinsic parameters that would generate an optimum range image, in terms of minimizing an error function that takes into account the visual hull and the salient features of the objects, when compared to other parameter sets or other target 3D models, matching is performed via estimating dissimilarity within the range image and salient feature space. Experimental results illustrate the efficiency of the proposed approach in benchmark datasets.
   

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