基于可穿戴设备的人体动作识别方法研究

Biosensors Pub Date : 2024-07-10 DOI:10.3390/bios14070337
Zhao Wang, Xing Jin, Yixuan Huang, Yawen Wang
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摘要

准确分析人类动态行为对于克服动作多样性和行为适应性的限制非常重要。本文提出了一种基于可穿戴设备的人类动态行为识别方法。该方法通过六轴传感器采集加速度和角速度数据,识别时间序列中包含特定行为特征的信息。在处理过程中使用了人体运动数据采集平台、DMP 姿态求解算法和阈值算法。在本实验中,十名志愿者在双侧前臂、上臂、大腿、小腿和腰部佩戴了可穿戴传感器,并在学校走廊和实验室环境中采集了站立、行走和跳跃的运动数据,以验证这种可穿戴人体运动识别方法的有效性。结果表明,站立、行走和跳跃的识别准确率分别达到 98.33%、96.67% 和 94.60%,平均识别率为 96.53%。与同类方法相比,该方法不仅提高了识别准确率,而且简化了识别算法,有效节省了计算资源。该研究有望为人类动态行为识别提供一个新的视角,促进可穿戴技术在日常生活辅助和健康管理领域的广泛应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on the Human Motion Recognition Method Based on Wearable
The accurate analysis of human dynamic behavior is very important for overcoming the limitations of movement diversity and behavioral adaptability. In this paper, a wearable device-based human dynamic behavior recognition method is proposed. The method collects acceleration and angular velocity data through a six-axis sensor to identify information containing specific behavior characteristics in a time series. A human movement data acquisition platform, the DMP attitude solution algorithm, and the threshold algorithm are used for processing. In this experiment, ten volunteers wore wearable sensors on their bilateral forearms, upper arms, thighs, calves, and waist, and movement data for standing, walking, and jumping were collected in school corridors and laboratory environments to verify the effectiveness of this wearable human movement recognition method. The results show that the recognition accuracy for standing, walking, and jumping reaches 98.33%, 96.67%, and 94.60%, respectively, and the average recognition rate is 96.53%. Compared with similar methods, this method not only improves the recognition accuracy but also simplifies the recognition algorithm and effectively saves computing resources. This research is expected to provide a new perspective for the recognition of human dynamic behavior and promote the wider application of wearable technology in the field of daily living assistance and health management.
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