Human-computer interaction force identification and control method for rehabilitation walking training robot
A technology of walking training and control methods, which is applied in general control systems, adaptive control, control/regulation systems, etc., and can solve problems such as the difficulty in designing tracking controllers for rehabilitation walking training robots
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[0058] The present invention is achieved through the following technical solutions:
[0059] 1) Aiming at the generalized control input force in the dynamic model of rehabilitation walking training robot, it is decomposed into tracking control force and human-computer interaction force, and a robot system dynamic model with human-computer interaction force is obtained;
[0060] 2) Taking the human-computer interaction force as the extended state of the system, using the real-time position output of the robot, designing a system observer combining constant gain and time-varying gain to estimate the human-computer interaction force;
[0061] 3) Design the Lyapunov function based on the state observation error, trajectory tracking error and velocity tracking error to make the observation error system and tracking error system asymptotically stable; at the same time, obtain the solution method of the observer gain and human-computer interaction force, and according to the obtained ...
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