In a wearable motion assist device, a motion assist device for generating a motion pattern synchronized with a wearer while maintaining a certain phase difference between a motion of the wearer and a motion of the device, and a synchronization based control method for the device are provided. The motion assist device acquires a phase of torque generated by the wearer's motion, applies a value of the phase to a phase oscillator model as an input, performs arithmetic processing, and calculates target torque and a target angle of the device with the motion of the device synchronized with the wearer. It is possible to improve an assisting effect of the device by controlling the device based on the calculated values.

It is proposed a design and control of series elastic holonomic mobile platform, aimed to administer therapeutic table-top exercises to patients who have suffered injuries that affect the function of their upper extremities. The proposed mobile platform is a low-cost, portable, easy-to-use rehabilitation device for home use. It consists of four actuated Mecanum wheels and a compliant, low-cost, multi degree-of freedom Series Elastic Element as its force sensing unit. Thanks to its series elastic actuation, it is highly backdriveable and can provide assistance/resistance to patients, while performing omni-directional movements on plane. The device helps improving accuracy and effectiveness of repetitive movement therapies completed at home, while also providing quantitative measures of patient progress.

A holding mechanism holds a care-receiver, a traction mechanism that is connected to the holding mechanism, and the traction mechanism pulls the holding mechanism so that the holding mechanism draws a predetermined path. On the basis of a position of the holding mechanism detected by a position sensor and a force detected by a force sensor, if the position of the holding mechanism is not on the predetermined path, a controller controls the traction mechanism so that the holding mechanism draws the predetermined path by changing the position of the holding mechanism to a position on the predetermined path at a time after the time at which the position is detected.