Human skeleton tracking from depth data using geodesic distances and optical flow
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摘要
In this paper, we present a method for human full-body pose estimation from depth data that can be obtained using Time of Flight (ToF) cameras or the Kinect device. Our approach consists of robustly detecting anatomical landmarks in the 3D data and fitting a skeleton body model using constrained inverse kinematics. Instead of relying on appearance-based features for interest point detection that can vary strongly with illumination and pose changes, we build upon a graph-based representation of the depth data that allows us to measure geodesic distances between body parts. As these distances do not change with body movement, we are able to localize anatomical landmarks independent of pose. For differentiation of body parts that occlude each other, we employ motion information, obtained from the optical flow between subsequent intensity images. We provide a qualitative and quantitative evaluation of our pose tracking method on ToF and Kinect sequences containing movements of varying complexity.
论文关键词:Human pose estimation,Depth imaging,Geodesic distances
论文评审过程:Received 17 July 2011, Revised 21 November 2011, Accepted 4 December 2011, Available online 13 December 2011.
论文官网地址:https://doi.org/10.1016/j.imavis.2011.12.001