Jer-Junn Luh scite author profile

This paper presents an assistive control system with a special kinematic structure of an upper limb rehabilitation robot embedded with force/torque sensors. A dynamic human model integrated with sensing torque is used to simulate human interaction under three rehabilitation modes: active mode, assistive mode, and passive mode. The hereby proposed rehabilitation robot, called NTUH-ARM, provides 7 degree-of- freedom (DOF) motion and runs subject to an inherent mapping between the 7 DOFs of the robot arm and the 4 DOFs of the human arm. The Lyapunov theory is used to analyze the stability of the proposed controller design. Clinical trials have been conducted with six patients, one of which acts as a control. The results of these experiments are positive and STREAM assessment by physical therapists also reveals promising results.

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Real-time implementation of electromyogram pattern recognition as a control command of man-machine interface

Chang

Kang

Luh

et al. 1996

Medical Engineering & Physics

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A novel STFT-ranking feature of multi-channel EMG for motion pattern recognition

Tsai

Luh

Lin

2015

Expert Systems with Applications

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Jer-Junn Luh

The effect of electroacupuncture merged with rehabilitation for frozen shoulder syndrome: A single-blind randomized sham-acupuncture controlled study

Isokinetic elbow joint torques estimation from surface EMG and joint kinematic data: using an artificial neural network model

Assistive Control System for Upper Limb Rehabilitation Robot

Real-time implementation of electromyogram pattern recognition as a control command of man-machine interface

A novel STFT-ranking feature of multi-channel EMG for motion pattern recognition

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