00000nam a2200000 i 4500 UP-1685523046126094610 Buklod 20230517134916.0 t rm |||| ud ta 230517s2019 xxu a r 001 0 eng 9781119405108 20603064 FA-7113 Golden Books Services, Inc. P8,447.00 DLC rda DCFA eng TA 1560 L34 2019 Laga, Hamid author 3D shape analysis fundamentals, theory, and applications Hamid Laga, Yulan Guo, Hedi Tabia, Robert B. Fisher, and Mohammed Bennamoun. New Jersey, USA Wiley 2019 xviii, 345 pages illustrations 24 cm text rdacontent unmediated rdamedia volume rdacarrier Includes bibliographical references and index 1 Introduction-- Part I Foundations-- 2 Basic Elements of 3D Geometry and Topology-- 3 3D Acquisition and Preprocessing-- Part II 3D Shape Descriptors-- 4 Global Shape Descriptors-- 5 Local Shape Descriptors-- Part III 3D Correspondence and Registration-- 6 Rigid Registration-- 7 Nonrigid Registration-- 8 Semantic Correspondences-- Part IV Applications-- 9 Examples of 3D Semantic Applications-- 10 3D Face Recognition-- 11 Object Recognition in 3D Scenes-- 12 3D Shape Retrieval-- 13 Cross-domain Retrieval-- 14 Conclusions and Perspectives-- "An in-depth description of the state-of-the-art of 3D shape analysis techniques and their applications This book discusses the different topics that come under the title of "3D shape analysis". It covers the theoretical foundations and the major solutions that have been presented in the literature. It also establishes links between solutions proposed by different communities that studied 3D shape, such as mathematics and statistics, medical imaging, computer vision, and computer graphics. The first part of 3D Shape Analysis: Fundamentals, Theory, and Applications provides a review of the background concepts such as methods for the acquisition and representation of 3D geometries, and the fundamentals of geometry and topology. It specifically covers stereo matching, structured light, and intrinsic vs. extrinsic properties of shape. Parts 2 and 3 present a range of mathematical and algorithmic tools (which are used for e.g., global descriptors, keypoint detectors, local feature descriptors, and algorithms) that are commonly used for the detection, registration, recognition, classification, and retrieval of 3D objects. Both also place strong emphasis on recent techniques motivated by the spread of commodity devices for 3D acquisition. Part 4 demonstrates the use of these techniques in a selection of 3D shape analysis applications. It covers 3D face recognition, object recognition in 3D scenes, and 3D shape retrieval. It also discusses examples of semantic applications and cross domain 3D retrieval, i.e. how to retrieve 3D models using various types of modalities, e.g. sketches and/or images. The book concludes with a summary of the main ideas and discussions of the future trends. 3D Shape Analysis: Fundamentals, Theory, and Applications is an excellent reference for graduate students, researchers, and professionals in different fields of mathematics, computer science, and engineering. It is also ideal for courses in computer vision and computer graphics, as well as for those seeking 3D industrial/commercial solutions."-- Machine learning. Pattern recognition systems. Three-dimensional imaging. Shapes Computer simulation. Guo, Yulan author. Tabia, Hedi author. Fisher, Robert B. author. Bennamoun, Mohammed author. Book FO UPD DCFA TA 1560 L34 2019 Book