Abstract :
A power-assist exoskeleton robot, which is directly attached to the user´s body and assist the motion in accordance with the user´s intension, is one of the most effective human assist robots for the physically weak persons. Many studies on power-assist robots have been carried out to help the motion of physically weak persons such as disabled, injured, and/or elderly persons. EMG-based control (i.e., control based on the skin surface electromyogram (EMG) signals of the user) is one of the most effective control methods for the power-assist robots, since EMG signals of user´s muscles directly reflect the user´s motion intension. However, the EMG-based control is not easy to be realized because of many reasons. The paper presents an effective human motion prediction method from the EMG signals using a neuro-fuzzy technique for the control of power-assist exoskeleton robots.
Keywords :
electromyography; fuzzy control; handicapped aids; mobile robots; motion control; neurocontrollers; orthotics; path planning; service robots; EMG-based human motion prediction; human assist robot; neuro-fuzzy technique; physically weak person; power assist exoskeleton robot; user motion intension; Control systems; Electromyography; Exoskeletons; Fuzzy control; Humans; Motion control; Muscles; Rehabilitation robotics; Senior citizens; Service robots;
