HOPE-G:用于步态康复的双带跑步机伺服气动系统

IF 3.1 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Intelligent & Robotic Systems Pub Date : 2024-08-30 DOI:10.1007/s10846-024-02158-4
Vinícius Vigolo, Lucas A. O. Rodrigues, Antonio Carlos Valdiero, Daniel A. L. da Cruz, Rogerio S. Gonçalves
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引用次数: 0

摘要

步态神经康复机器人设备的使用越来越多,然而,现有的可选设备很少,价格昂贵,结构和控制复杂度高。因此,本文介绍了一种新型步态康复机器人 HOPE-G,它由主动体重支撑系统和双带跑步机伺服气动模块组成。本文的重点是双带跑步机伺服气动模块的开发,该模块具有翻转运动功能,可在人体步态康复的摆动阶段消除患者的物理障碍。文中提供了伺服气动系统和跑步机模块的数学模型。设计了一个阻抗控制器,为病人提供一个顺应性的行走表面。模拟和测试结果表明,伺服气动系统能够满足应用要求,并有效控制表面刚度。因此,气动系统具有减震能力,是应用于人体康复任务的经济高效的解决方案。
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HOPE-G: A Dual Belt Treadmill Servo-Pneumatic System for Gait Rehabilitation

The use of robotic devices for gait neurological rehabilitation is growing, however, the available options are scarce, expensive, and with high complexity of construction and control. In this way, this paper presents the HOPE-G, a novel gait rehabilitation robot consisting of an active bodyweight support system and a dual belt treadmill servo-pneumatic module. This paper focuses on the development of the dual belt treadmill servo-pneumatic module, which has tipper movement to remove the physical barrier of the patient during the swing phase of the human gait rehabilitation. The mathematical models of the servo-pneumatic system and the treadmill module are provided. An impedance controller was designed to provide a compliant walking surface for the patient. Simulation and test rig results demonstrate the servo-pneumatic system’s capability to meet the application requirements and effectively control the surface stiffness. Therefore, it is evidenced that pneumatic systems have shock absorption capabilities, making them a cost-effective solution for application in human rehabilitation tasks.

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来源期刊
Journal of Intelligent & Robotic Systems
Journal of Intelligent & Robotic Systems 工程技术-机器人学
CiteScore
7.00
自引率
9.10%
发文量
219
审稿时长
6 months
期刊介绍: The Journal of Intelligent and Robotic Systems bridges the gap between theory and practice in all areas of intelligent systems and robotics. It publishes original, peer reviewed contributions from initial concept and theory to prototyping to final product development and commercialization. On the theoretical side, the journal features papers focusing on intelligent systems engineering, distributed intelligence systems, multi-level systems, intelligent control, multi-robot systems, cooperation and coordination of unmanned vehicle systems, etc. On the application side, the journal emphasizes autonomous systems, industrial robotic systems, multi-robot systems, aerial vehicles, mobile robot platforms, underwater robots, sensors, sensor-fusion, and sensor-based control. Readers will also find papers on real applications of intelligent and robotic systems (e.g., mechatronics, manufacturing, biomedical, underwater, humanoid, mobile/legged robot and space applications, etc.).
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