TY - BOOK AU - Rosenhahn,Bodo AU - Klette,Reinhard AU - Metaxas,Dimitris N. TI - Human motion: understanding, modeling, capture and animation T2 - Computational imaging and vision SN - 1402066929 AV - TA1650 .H85 2008 U1 - 612.76028566 22 PY - 2008///] CY - Dordrecht, the Netherlands PB - Springer KW - Optical pattern recognition KW - Congresses KW - Human locomotion KW - Computer simulation KW - Kinesiology KW - Biometric identification KW - Multimedia systems KW - Biological models KW - Biomechanics KW - Video recording KW - Movement KW - physiology N1 - " ... based on a June 2006 workshop held in Dagstuhl, Germany"--P. ix; Includes bibliographical references and index; 1; Understanding human motion: a historic review; Reinhard Klette and Garry Tee --; pt. I; 2D tracking; 2; The role of manifold learning in human motion analysis; Ahmed Elgammal and Chan-Su Lee; 3; Recognition of action as a Bayesian parameter estimation problem over time; Volker Krüger; 4; The William Harvey code: mathematical analysis of optical flow computation for cardiac motion; Yusuke Kameda and Atsushi Imiya; 5; Detection and tracking of humans in single view sequences using 2D articulated model; Filip Korč and Václav Hlaváč --; pt. II; Learning; 6; Combining discrete and continuous 3D trackers; Gabriel Tsechpenakis, Dimitris Metaxas, and Carol Neidle; 7; Graphical models for human motion modelling; Kooksang Moon and Vladimir Pavlović; 8; 3D human motion analysis in monocular video: techniques and challenges; Christian Sminchisescu; 9; Spatially and temporally segmenting movement to recognize actions; Richard Green; 10; Topologically constrained idometric embedding; Guy Rosman, Alexander M. Bronstein, Michael M. Bronstein, and Ron Kimmel --; pt. III; 2D-3D tracking; 11; Contours, optic flow, and prior knowledge: cues for capturing 3D human motion in videos; Thomas Brox, Bodo Rosenhahn, and Daniel Cremers; 12; Tracking clothed people; Bodo Rosenhahn, Uwe G. Kersting, Katie Powell, T. Brox, and Hans-Peter Seidel; 13; An introduction to interacting simulated annealing; Jürgen Gall, Bodo Rosenhahn, and Hans-Peter Seidel; 14; Motion capture for interaction environments; Daniel Grest and Reinhard Koch; 15; Markerless motion capture for biomechanical applications; Lars Mündermann, Stefano Corazza, and Thomas P. Andriacchi --; pt. IV; Biomechanics and applications; 16; Qualitative and quantitative aspects of movement: the discrepancy between clinical gait analysis and activities of daily life; Dieter Rosenbaum and Mirko Brandes; 17. Optimization of human motion exemplified with handbiking by means of motion analysis and musculoskeletal models; Harald Böhm and Christian Krämer; 18; Imitation learning and transferring of human movement and hand grasping to adapt to environment changes; Stephan Al-Zubi and Gerald Sommer; 19; Accurate and model-free pose estimation of crash test dummies; Stefan K. Gehrig, Hernán Badino, and Jürgen Gall --; pt. V; Modelling and animation; 20; A relational approach to content-based analysis of motion capture data; Meinard Müller and Tido Röder; 21; The representation of rigid body motions in the conformal model of geometric algebra; Leo Dorst; 22; Video-based capturing and rendering of people; Christian Theobalt, Marcus Magnor, and Hans-Peter Seidel; 23; Interacting deformable objects; Matthias Teschner, Bruno Heidelberger, and Matthias Müller-Fischer; 24; From performance theory to character animation tools; Michael Neff and Eugene Fiume ER -