Design and Control of an Upper Limb Bionic Exoskeleton Rehabilitation Device Based on Tensegrity Structure.

IF 1.8 4区 计算机科学 Q3 ENGINEERING, BIOMEDICAL
Applied Bionics and Biomechanics Pub Date : 2024-08-29 eCollection Date: 2024-01-01 DOI:10.1155/2024/5905225
Peng Ni, Jianwei Sun, Jialin Dong
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Abstract

Upper limb exoskeleton rehabilitation devices can improve the quality of rehabilitation and relieve the pressure of rehabilitation medical treatment, which is a research hotspot in the field of medical robots. Aiming at the problems such as large volume, high cost, low comfort, and difficulty in promotion of traditional exoskeleton rehabilitation devices, and considering the lightweight, discontinuous, high flexibility, and high biomimetic characteristics of tensegrity structure, we designed an upper limb bionic exoskeleton rehabilitation device based on tensegrity structure. First, this article uses mapping methods to establish a mapping model for upper limb exoskeletons based on the tensegrity structure and designs the overall structure of upper limb exoskeletons based on the mapping model. Second, a bionic elbow joint device based on gear and rack was designed, and the stability of the bionic elbow joint was proved using the positive definite matrix method. This device can simulate the micro displacement between bones of the human elbow joint, improve the axial matching ability between the upper limbs and the rehabilitation device, and enhance the comfort of rehabilitation. Third, an impedance control scheme based on back propagation (BP) neural network was designed to address the low control accuracy of flexible structures and patient spasms. Finally, we designed the impedance control scheme of the PSO-BP neural network based on a fuzzy rehabilitation state evaluator. The experimental results show that the exoskeleton rehabilitation device has good flexion motion stability and assist ability and has significant advantages in volume and mobility. The control strategy proposed in this paper has high control precision and adaptive ability and has potential application value in the field of medical rehabilitation.

基于张力结构的上肢仿生外骨骼康复装置的设计与控制
上肢外骨骼康复装置可以提高康复质量,缓解康复医疗压力,是医疗机器人领域的研究热点。针对传统外骨骼康复装置体积大、成本高、舒适度低、推广难等问题,考虑到张力团结构轻便、不连续、高柔性、高仿生等特点,我们设计了一种基于张力团结构的上肢仿生外骨骼康复装置。首先,本文利用映射方法建立了基于张斯格理结构的上肢外骨骼映射模型,并根据映射模型设计了上肢外骨骼的整体结构。其次,设计了一种基于齿轮和齿条的仿生肘关节装置,并利用正定矩阵法证明了仿生肘关节的稳定性。该装置可以模拟人体肘关节骨骼间的微小位移,提高上肢与康复装置的轴向匹配能力,增强康复的舒适性。第三,针对柔性结构控制精度低、患者痉挛等问题,设计了基于反向传播(BP)神经网络的阻抗控制方案。最后,我们设计了基于模糊康复状态评价器的 PSO-BP 神经网络阻抗控制方案。实验结果表明,外骨骼康复装置具有良好的屈曲运动稳定性和辅助能力,在体积和移动性方面具有显著优势。本文提出的控制策略具有较高的控制精度和自适应能力,在医疗康复领域具有潜在的应用价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applied Bionics and Biomechanics
Applied Bionics and Biomechanics ENGINEERING, BIOMEDICAL-ROBOTICS
自引率
4.50%
发文量
338
审稿时长
>12 weeks
期刊介绍: Applied Bionics and Biomechanics publishes papers that seek to understand the mechanics of biological systems, or that use the functions of living organisms as inspiration for the design new devices. Such systems may be used as artificial replacements, or aids, for their original biological purpose, or be used in a different setting altogether.
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