In this paper, we introduce an adaptive control methodology of piezoelectric actuators for microelectromechanical manipulation mechanisms. The adaptive control strategy capitalizes on the piezoelectric actuator's inverse model to design an adaptive controller using a Lyapunov-based adaptation technique. The controller achieves high precision motion tracking under hysteresis nonlinearities, parametric uncertainties, and external disturbance. Results for different situations highlight the performance of the proposed controller in compensating for hysteresis effect
In this paper, a robust control approach using a novel hysteresis observer is developed for precise ...
Piezoelectric actuators are widely used in micro manipulation applications. However, hysteresis nonl...
We develop convergence criteria of an iterative learning control on the whole desired trajectory to ...
International audienceIn this manuscript, an adaptive control strategy is presented for piezoactuato...
In this paper, we present an adaptive controller of piezoactuators without velocity measurement for ...
High performance motion trajectory tracking can be achieved on a piezoelectric stack actuator stage ...
Control of piezoelectric actuators is under the effects of hysteresis that could affect actuators mi...
[[abstract]]Piezoelectric (PZT) actuators having the characteristic of infinitely small displacement...
Abstract—This paper proposes an improved sliding mode con-trol with perturbation estimation (SMCPE) ...
Abstract--In this paper, precision tracking control of piezoelectric-actuated systems is discussed. ...
The problem of tracking control for piezoelectric actuator (PEA) is investigated in this article. In...
Control of piezoelectric actuators is under the effects of hysteresis that could affect actuators mi...
In this paper, a robust control approach using a novel hysteresis observer is developed for precise ...
In this paper, a robust control approach using a novel hysteresis observer is developed for precise ...
Piezoelectric actuators are widely used in micro manipulation applications. However, hysteresis nonl...
We develop convergence criteria of an iterative learning control on the whole desired trajectory to ...
International audienceIn this manuscript, an adaptive control strategy is presented for piezoactuato...
In this paper, we present an adaptive controller of piezoactuators without velocity measurement for ...
High performance motion trajectory tracking can be achieved on a piezoelectric stack actuator stage ...
Control of piezoelectric actuators is under the effects of hysteresis that could affect actuators mi...
[[abstract]]Piezoelectric (PZT) actuators having the characteristic of infinitely small displacement...
Abstract—This paper proposes an improved sliding mode con-trol with perturbation estimation (SMCPE) ...
Abstract--In this paper, precision tracking control of piezoelectric-actuated systems is discussed. ...
The problem of tracking control for piezoelectric actuator (PEA) is investigated in this article. In...
Control of piezoelectric actuators is under the effects of hysteresis that could affect actuators mi...
In this paper, a robust control approach using a novel hysteresis observer is developed for precise ...
In this paper, a robust control approach using a novel hysteresis observer is developed for precise ...
Piezoelectric actuators are widely used in micro manipulation applications. However, hysteresis nonl...
We develop convergence criteria of an iterative learning control on the whole desired trajectory to ...