Event-Triggered Polynomial Control for Trajectory Tracking of Unicycle Robots
This paper proposes an event-triggered polynomial control method for trajectory tracking of unicycle robots. In this control method, each control input signal between two consecutive events is a polynomial. At each event, the coefficients of the polynomial control input are chosen to minimize the error in approximating a continuous-time control signal. We design an event-triggering rule that guarantees uniform ultimate boundedness of the tracking error. We ensure the absence of zeno behavior by showing the existence of a uniform positive lower bound on the inter-event times. We illustrate our results through numerical simulations and experiments. We show that the number of events generated by the proposed controller is significantly less compared to a time-triggered controller and an event-triggered controller based on zero-order hold, while guaranteeing similar tracking performance.
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