Title :
Control of ionic polymer metal composites
Author :
Richardson, Robert C. ; Levesley, Martin C. ; Brown, Michael D. ; Hawkes, Jamie A. ; Watterson, Kevin ; Walker, Peter G.
Author_Institution :
Artificial Intelligence Group, Univ. of Manchester, UK
fDate :
6/1/2003 12:00:00 AM
Abstract :
Robotic devices are traditionally actuated by hydraulic systems or electric motors. However, with the desire to make robotic systems more compact and versatile, new actuator technologies are required. In this paper, the control of ionic polymer metal composite actuators is investigated from a practical perspective. The actuator characteristics are examined through the unblocked maximum displacement and blocked force output. An open-loop position control and closed-loop position proportional-integral-derivative (PID) control are then applied to a strip of actuators. Finally, the performance of the polymer is investigated when implementing an impedance controller (force/position control).
Keywords :
actuators; closed loop systems; force control; polymers; position control; robots; three-term control; PID control; blocked force output; closed-loop control; force control; impedance control; ionic polymer metal composite actuators; open-loop control; position control; robotic systems; unblocked maximum displacement; Actuators; Electric motors; Force control; Hydraulic systems; Open loop systems; Pi control; Polymers; Position control; Robots; Three-term control;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2003.812835
