Modeling and Evaluation of a Novel Hybrid-Driven Compliant Hand Exoskeleton Based on Human-Machine Coupling Model

Meng, Qiaoling; Shen, Zhijia; Meng, Qingyun; Wu, Zhiyu; Yu, Hongliu

doi:10.3390/app112210825

Cited by 17 publications

(13 citation statements)

References 32 publications

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“…VSFH [71] VSFH is an exoskeleton device designed with a variable stiffness in each joint. Using FSRs and a cable-driven system, the VSFH device can provide passive rehabilitation and conduct common ADLs Meeker et al [72] Meeker et.…”

Section: Name Descriptionmentioning

confidence: 99%

“…A mathematical model for a hybrid-driven exoskeleton [ 71 ] for a hand is provided in Figure 6 . The device is described as hybrid-driven as the device is actuated using active tendon-driven actuation and passive flexible-hinge joints.…”

Section: Hand Rehabilitation Devicesmentioning

confidence: 99%

“…The device is described as hybrid-driven as the device is actuated using active tendon-driven actuation and passive flexible-hinge joints. The following equations were derived from Meng’s development of the Variable Stiffness Fixed Hinge (VSFH) device [ 71 ]. Using Figure 6 a,b, the kinematics of a single finger is projected onto a two-dimensional xy-plane.…”

Section: Hand Rehabilitation Devicesmentioning

confidence: 99%

“… The base design principle for the hybrid-driven compliant hand exoskeleton [ 71 ]. ( a ) Basic design principle of the hand exoskeleton.…”

Section: Figurementioning

confidence: 99%

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Hand Rehabilitation Devices: A Comprehensive Systematic Review

et al. 2022

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A cerebrovascular accident, or a stroke, can cause significant neurological damage, inflicting the patient with loss of motor function in their hands. Standard rehabilitation therapy for the hand increases demands on clinics, creating an avenue for powered hand rehabilitation devices. Hand rehabilitation devices (HRDs) are devices designed to provide the hand with passive, active, and active-assisted rehabilitation therapy; however, HRDs do not have any standards in terms of development or design. Although the categorization of an injury’s severity can guide a patient into seeking proper assistance, rehabilitation devices do not have a set standard to provide a solution from the beginning to the end stages of recovery. In this paper, HRDs are defined and compared by their mechanical designs, actuation mechanisms, control systems, and therapeutic strategies. Furthermore, devices with conducted clinical trials are used to determine the future development of HRDs. After evaluating the abilities of 35 devices, it is inferred that standard characteristics for HRDs should include an exoskeleton design, the incorporation of challenge-based and coaching therapeutic strategies, and the implementation of surface electromyogram signals (sEMG) based control.

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Section: Name Descriptionmentioning

confidence: 99%

Section: Hand Rehabilitation Devicesmentioning

confidence: 99%

Section: Hand Rehabilitation Devicesmentioning

confidence: 99%

“… The base design principle for the hybrid-driven compliant hand exoskeleton [ 71 ]. ( a ) Basic design principle of the hand exoskeleton.…”

Section: Figurementioning

confidence: 99%

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Hand Rehabilitation Devices: A Comprehensive Systematic Review

et al. 2022

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“…As a new field of robotics, over the past decade, rehabilitation robots have attracted more attention from researchers and rehabilitation doctors. Various hand rehabilitation robots have been developed to train the motor function of stroke patients' hands [6][7][8][9][10]. Generally, hand rehabilitation robots can be divided into three categories: exoskeleton robots, flexible exoskeleton robots, and flexible gloves.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Analysis and Experimental Study of Lasso Transmission for Hand Rehabilitation Robot

Guo

Yang

2023

Micromachines

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Lasso transmission is a method for realizing long-distance flexible transmission and lightweight robots. However, there are transmission characteristic losses of velocity, force, and displacement during the motion of lasso transmission. Therefore, the analysis of transmission characteristic losses of lasso transmission has become the focus of research. For this study, at first, we developed a new flexible hand rehabilitation robot with a lasso transmission method. Second, the theoretical analysis and simulation analysis of the dynamics of the lasso transmission in the flexible hand rehabilitation robot were carried out to calculate the force, velocity, and displacement losses of the lasso transmission. Finally, the mechanism and transmission models were established for experimental studies to measure the effects of different curvatures and speeds on the lasso transmission torque. The experimental data and image analysis results show torque loss in the process of lasso transmission and an increase in torque loss with the increase in the lasso curvature radius and transmission speed. The study of the lasso transmission characteristics is important for the design and control of hand functional rehabilitation robots, providing an important reference for the design of flexible rehabilitation robots and also guiding the research on the lasso regarding the compensation method for transmission losses.

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Adaptation of Hand Exoskeletons for Occupational Augmentation: A Literature Review

Wu,

Xie

2024

Robotics and Autonomous Systems

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Modeling and Evaluation of a Novel Hybrid-Driven Compliant Hand Exoskeleton Based on Human-Machine Coupling Model

Cited by 17 publications

References 32 publications

Hand Rehabilitation Devices: A Comprehensive Systematic Review

Hand Rehabilitation Devices: A Comprehensive Systematic Review

Dynamic Analysis and Experimental Study of Lasso Transmission for Hand Rehabilitation Robot

Adaptation of Hand Exoskeletons for Occupational Augmentation: A Literature Review

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