Add to ORKGAbstract — In this paper, the hysteresis modeling and com-pensation are carried out and verified for a piezo-driven XY parallel micropositioning stage aiming at a sub-micron precise motion tracking control. Specifically, inverse modified Prandtl-Ishlinskii (MPI) model-based feedforward in combination with a proportional-integral-derivative (PID) feedback control al-gorithm is implemented for the real-time control. The MPI model is identified by optimizing the weight parameters through particle swarm optimization (PSO) to match the model output to experimental data. For the purpose of comparisons, a feedfor-ward controller using the inverse MPI model solely is realized as well. The performance of feedforward plus feedback over stand-alone fe...
Abstract—This paper proposes an improved sliding mode con-trol with perturbation estimation (SMCPE) ...
In this paper feedforward controller is designed to eliminate nonlinear hysteresis behaviors of a pi...
Microelectromechanical systems (MEMS) based positioning stages are composed of a piezoelectric actua...
Abstract — In this paper, a model reference adaptive con-troller (MRAC) is designed for a piezo-driv...
Abstract—In this paper, a two-loop controller is proposed to suppress the hysteresis and to achieve ...
Piezo-actuated micropositioning stages consist of a piezoelectric actuator that operates a positioni...
Nanopositioning technology is widely used in high-resolution applications. It often uses piezoelectr...
Abstract—This paper presents the design and manufacturing processes of a new piezoactuated XY stage ...
Abstract — In this paper, a global sliding mode control (GSMC) scheme is implemented on a piezo-driv...
Abstract—This paper proposes an enhanced model predictive discrete-time sliding mode control (MPDSMC...
Piezoelectrically-driven (piezoactive) systems such as nanopositioning platforms, scanning probe mic...
Abstract—A piezo-driven micro-/nanopositioning system re-quires an appropriate controller to suppres...
Piezoelectric-stack actuated platforms are very popular in the parlance of nanopositioning with myri...
Abstract—In this paper, a sliding mode control with perturba-tion estimation (SMCPE) using an extend...
In this paper, the development of an ultra-precision XY nanopositioning stage is presented. For syst...
Abstract—This paper proposes an improved sliding mode con-trol with perturbation estimation (SMCPE) ...
In this paper feedforward controller is designed to eliminate nonlinear hysteresis behaviors of a pi...
Microelectromechanical systems (MEMS) based positioning stages are composed of a piezoelectric actua...
Abstract — In this paper, a model reference adaptive con-troller (MRAC) is designed for a piezo-driv...
Abstract—In this paper, a two-loop controller is proposed to suppress the hysteresis and to achieve ...
Piezo-actuated micropositioning stages consist of a piezoelectric actuator that operates a positioni...
Nanopositioning technology is widely used in high-resolution applications. It often uses piezoelectr...
Abstract—This paper presents the design and manufacturing processes of a new piezoactuated XY stage ...
Abstract — In this paper, a global sliding mode control (GSMC) scheme is implemented on a piezo-driv...
Abstract—This paper proposes an enhanced model predictive discrete-time sliding mode control (MPDSMC...
Piezoelectrically-driven (piezoactive) systems such as nanopositioning platforms, scanning probe mic...
Abstract—A piezo-driven micro-/nanopositioning system re-quires an appropriate controller to suppres...
Piezoelectric-stack actuated platforms are very popular in the parlance of nanopositioning with myri...
Abstract—In this paper, a sliding mode control with perturba-tion estimation (SMCPE) using an extend...
In this paper, the development of an ultra-precision XY nanopositioning stage is presented. For syst...
Abstract—This paper proposes an improved sliding mode con-trol with perturbation estimation (SMCPE) ...
In this paper feedforward controller is designed to eliminate nonlinear hysteresis behaviors of a pi...
Microelectromechanical systems (MEMS) based positioning stages are composed of a piezoelectric actua...