Title :
H∞ robustification control of existing piezoelectric-stack actuated nanomanipulators
Author :
Ladjal, Hamid ; Hanus, Jean-Luc ; Ferreira, Antoine
Author_Institution :
PRISME Inst., ENSI de Bourges, Bourges, France
Abstract :
In current AFM-based nanomanipulation systems, the commercial position closed-loop controller for piezoelectric nanopositioning stages are implemented with success in a wide range of industrial applications. Even if these controllers operate with satisfactory nominal tracking performance, considerable attention has been focused on appropriate control strategies to compensate hysteresis, nonlinearities, drift and creep for high bandwidths and large scanning regimes. As these closed-loop controllers are very cost-effective, a special interest in robust plug-in compensators seems to be a solution. We proposed in this paper a robust plug-in compensator using the H-infinity loop-shaping techniques which can be plugged into the existing controller without affecting the already satisfactory nominal tracking performance of the existing closed-loop system. Dynamic modeling, identification and robust control of a 3 d.o.f. piezoelectric nanorobotic positioner are presented in this paper in order to improve the nanorobot performance under plant parameter variations and in the presence of external disturbances. Simulation and experimental results are given to validate the proposed plug-in robust compensator in the case of a nanorobotic manipulation task.
Keywords :
Hinfin control; closed loop systems; control nonlinearities; manipulator dynamics; nanopositioning; piezoelectric actuators; robust control; AFM-based nanomanipulation systems; H-infinity loop-shaping techniques; Hinfin robustification control; dynamic modeling; nanorobotic manipulation; piezoelectric nanopositioning stages; piezoelectric nanorobotic positioner; piezoelectric-stack actuated nano-manipulators; position closed-loop controller; robust control; robust plug-in compensators; Bandwidth; Control nonlinearities; Control systems; Creep; Electrical equipment industry; H infinity control; Hysteresis; Industrial control; Nanopositioning; Robust control;
Conference_Titel :
Robotics and Automation, 2009. ICRA '09. IEEE International Conference on
Conference_Location :
Kobe
Print_ISBN :
978-1-4244-2788-8
Electronic_ISBN :
1050-4729
DOI :
10.1109/ROBOT.2009.5152701