4.6 Article

Motion Capture Benchmark of Real Industrial Tasks and Traditional Crafts for Human Movement Analysis

期刊

IEEE ACCESS
卷 11, 期 -, 页码 40075-40092

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2023.3269581

关键词

Human factors; Recording; Motion capture; TV; Laboratories; Cameras; Motion control; Image processing; Inertial sensors; Historical crafts; human motion generation; industrial tasks; inertial sensors; motion capture datasets; real scenarios

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Human movement analysis is a significant research area in robotics, biomechanics, and data science. This paper introduces seven datasets recorded using inertial-based motion capture, which provide a foundation for research on human motion modeling, analysis, and generation.
Human movement analysis is a key area of research in robotics, biomechanics, and data science. It encompasses tracking, posture estimation, and movement synthesis. While numerous methodologies have evolved over time, a systematic and quantitative evaluation of these approaches using verifiable ground truth data of three-dimensional human movement is still required to define the current state of the art. This paper presents seven datasets recorded using inertial-based motion capture. The datasets contain professional gestures carried out by industrial operators and skilled craftsmen performed in real conditions in-situ. The datasets were created with the intention of being used for research in human motion modeling, analysis, and generation. The protocols for data collection are described in detail, and a preliminary analysis of the collected data is provided as a benchmark. The Gesture Operational Model, a hybrid stochastic-biomechanical approach based on kinematic descriptors, is utilized to model the dynamics of the experts' movements and create mathematical representations of their motion trajectories for analyzing and quantifying their body dexterity. The models allowed accurate generation of human professional poses and an intuitive description of how body joints cooperate and change over time through the performance of the task.

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