期刊
COMPUTER VISION AND IMAGE UNDERSTANDING
卷 114, 期 12, 页码 1362-1375出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.cviu.2009.11.005
关键词
Human pose estimation; Human body tracking; Constrained inverse kinematics; Model based human body tracking; Key point detection
This paper presents a model-based Cartesian control theoretic approach for estimating human pose from a set of key features points (key-points) detected using depth Images obtained from a time-of-flight imaging device The key-points represent positions of anatomical landmarks detected and tracked over time based on a probabilistic inferencing algorithm that is robust to partial occlusions and capable of resolving ambiguities in detection The detected key-points are subsequently kinematically self retargeted or mapped to the subject s own kinematic model in order to predict the pose of an articulated human model at the current state resolve ambiguities in key point detection and provide estimates of missing or intermittently occluded key-points Based on a standard kinematic and mesh model of a human constraints such as joint limit avoidance and self-penetration avoidance are enforced within the retargeting framework Effectiveness of the algorithm is demonstrated experimentally for upper and full-body pose reconstruction from a small set of detected key points On average the proposed algorithm runs at approximately 10 frames per second for the upper-body and 5 frames per second for whole body reconstruction on a standard 2 13 GHz laptop PC (C) 2010 Elsevier Inc All rights reserved
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