Intelligent control of an exercise machine

The control of a one degree of freedom exercise machine is considered. The control objective is to cause the human user to exercise at a rate which optimizes a prescribed weighted power criterion. The optimality condition is determined by the muscle mechanics which is assumed to satisfy a force-velocity relationship. In general, the parameters of this relationship are unknown and vary with the configuration of the exercise machine. As a consequence, the control scheme must simultaneously (i) identify the parameters, (ii) optimize the controller, and (iii) stabilize the system to the estimated optimal states. In this paper we derive a controller which is in the form of a nonlinear dynamic damper and makes the controlled system interact passively with the user. Assuming that the human´s force-velocity muscular biomechanics relationship is known, this controller allows the user to exercise in an optimal manner