基于图像的上肢康复机器人互动训练方法

Machines Pub Date : 2024-05-16 DOI:10.3390/machines12050348
Changlong Ye, Zun Wang, Suyang Yu, Chunying Jiang
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引用次数: 0

摘要

针对使用康复机器人进行康复训练过程中患者与机器人之间的人机交互问题,本文提出了一种基于自主研发的上肢康复机器人的人机交互控制方法。该方法以摄像头为传感器,利用人体骨架模型对运动图像进行分析,提取人体关键点。然后,通过深度估计和空间几何提取人体手臂关键点的三维坐标,进而获得实时运动数据,并据此生成机器人的控制指令,实现机器人的实时交互控制。这种方法不仅能提高系统对患者个体差异的适应性,还能提高系统的鲁棒性,使其受环境变化的影响更小。实验结果表明,这种方法可以实现对康复机器人的实时控制,机器人协助病人完成动作的准确性很高。结果表明,这种控制方法是有效的,可应用于机器人控制和机器人辅助康复训练领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Image-Based Interactive Training Method of an Upper Limb Rehabilitation Robot
Aimed at the problem of human–machine interaction between patients and robots in the process of using rehabilitation robots for rehabilitation training, this paper proposes a human–machine interactive control method based on an independently developed upper limb rehabilitation robot. In this method, the camera is used as a sensor, the human skeleton model is used to analyse the moving image, and the key points of the human body are extracted. Then, the three-dimensional coordinates of the key points of the human arm are extracted by depth estimation and spatial geometry, and then the real-time motion data are obtained, and the control instructions of the robot are generated from it to realise the real-time interactive control of the robot. This method can not only improve the adaptability of the system to individual patient differences, but also improve the robustness of the system, which is less affected by environmental changes. The experimental results show that this method can realise real-time control of the rehabilitation robot, and that the robot assists the patient to complete the action with high accuracy. The results show that this control method is effective and can be applied to the fields of robot control and robot-assisted rehabilitation training.
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