This chapter presents a set of techniques for reconstructing and understanding human motions measured using current motion capturereconstruction of human motion technologies. We first review modeling and computation techniques for obtaining motion and force information from human motion data (Sect. 68.2). Here we show that kinematics and dynamics algorithms for articulated rigid bodies can be applied to human motion data processing, with help from models based on knowledge in anatomy and physiology. We then describe methods for analyzing human motions so that robots can segment and categorize different behaviors and use them as the basis for human motion understanding and communication (Sect. 68.3). These methods are based on statistical techniques widely used in linguistics. The two fields share the common goal of converting continuous and noisy signal to discrete symbols, and therefore it is natural to apply similar techniques. Finally, we introduce some application examples of human motion and models ranging from simulated human control to humanoid robot motion synthesis.
CITATION STYLE
Yamane, K., & Takano, W. (2016). Human Motion Reconstruction. In Springer Handbooks (pp. 1819–1834). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-319-32552-1_68
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