Abstract
In this paper, the tracking control problem of underactuated surface vehicles with modeling uncertainties and unknown external disturbances is studied. The fuzzy logic system is applied to approximate the uncertainties in the model. A new disturbance observer with a learning factor is introduced to compensate external disturbances. It can improve observation precision and lead to faster tracking of the system. According to this, and combining the adaptive backstepping technique with the command-filter and event-triggered mechanism, the adaptive fuzzy control method is proposed to guarantee the boundedness of all the closed-loop signals. It is also proved that the tracking errors of the position and yaw angle can keep within a certain precision in finite time. Simulation on the surface vessel verifies the feasibility, and the proposed method is insensitive to the main design parameters.
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