Journal Article10.1109/TBME.2006.880883
Real-Time Myoprocessors for a Neural Controlled Powered Exoskeleton Arm
TL;DR: The myoprocessor seems an adequate model, sufficiently robust for further integration into the exoskeleton control system, and high correlation between joint moment predictions of the model and the measured data is indicated.
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Abstract: Exoskeleton robots are promising assistive/rehabilitative devices that can help people with force deficits or allow the recovery of patients who have suffered from pathologies such as stroke. The key component that allows the user to control the exoskeleton is the human machine interface (HMI). Setting the HMI at the neuro-muscular level may lead to seamless integration and intuitive control of the exoskeleton arm as a natural extension of the human body. At the core of the exoskeleton HMI there is a model of the human muscle, the "myoprocessor," running in real-time and in parallel to the physiological muscle, that predicts joint torques as a function of the joint kinematics and neural activation levels. This paper presents the development of myoprocessors for the upper limb based on the Hill phenomenological muscle model. Genetic algorithms are used to optimize the internal parameters of the myoprocessors utilizing an experimental database that provides inputs to the model and allows for performance assessment. The results indicate high correlation between joint moment predictions of the model and the measured data. Consequently, the myoprocessor seems an adequate model, sufficiently robust for further integration into the exoskeleton control system
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Citations
Exoskeleton robots for upper-limb rehabilitation: State of the art and future prospects
Ho Shing Lo,Sheng Quan Xie +1 more
TL;DR: The recent progress of upper limb exoskeleton robots for rehabilitation treatment of patients with neuromuscular disorders and the fundamental challenges in developing these devices are described.
572
An EMG-Based Control for an Upper-Limb Power-Assist Exoskeleton Robot
Kazuo Kiguchi,Yoshiaki Hayashi +1 more
- 01 Aug 2012
TL;DR: An electromyogram (EMG)-based impedance control method for an upper-limb power-assist exoskeleton robot is proposed to control the robot in accordance with the user's motion intention and is simple, easy to design, humanlike, and adaptable to any user.
549
A heuristic fuzzy logic approach to EMG pattern recognition for multifunctional prosthesis control
A.B. Ajiboye,R.Fff. Weir +1 more
- 12 Sep 2005
TL;DR: A heuristic fuzzy logic approach to multiple electromyogram (EMG) pattern recognition for multifunctional prosthesis control that is transparent to, and easily "tweaked" by, the prosthetist/clinician is presented.
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Intention-Based EMG Control for Powered Exoskeletons
TL;DR: Experimental results clearly show that subjects adapt almost instantaneously to the assistance provided by the robot and can reduce their effort while keeping full control of the movement under different dynamic conditions (i.e., no alterations of movement accuracy are observed).
406
EMG-driven forward-dynamic estimation of muscle force and joint moment about multiple degrees of freedom in the human lower extremity.
TL;DR: This work developed a novel and comprehensive EMG-driven model of the human lower extremity that used EMG signals from 16 muscle groups to drive 34 MTUs and satisfy the resulting joint moments simultaneously produced about four DOFs during different motor tasks.
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