Title :
A Globally Stable PD-INP-D Regulator for Robot Manipulators
Author :
Liu, Bai-Shun ; Tian, Bing-Li
Author_Institution :
Dept. of Battle & Command, Academe of Naval Submarine, Qingdao, China
Abstract :
This paper deals with the position control of rigid robot manipulators with uncertain payload. Proposed is a simple class of robot regulators consisting of a linear proportional-derivative (PD) feedback plus an integral action driven by an NP-D controller. By using Lyapunovpsilas direct method and LaSallepsilas invariance principle, the simple explicit conditions on the regulator gains to ensure global asymptotic stability are provided. The theoretical analysis and simulation results show that: an attractive feature of our scheme is that PD-INP-D controller has the faster convergence, better flexibility and stronger robustness with respect to uncertain payload, and then the optimum response can be achieved by a set of control parameters in the whole control domain of interest, even under the case that the payload is changed abruptly.
Keywords :
Lyapunov methods; PD control; asymptotic stability; convergence; feedback; manipulator dynamics; position control; robust control; three-term control; uncertain systems; LaSalle invariance principle; Lyapunov direct method; NP-D controller; PD-I regulator; convergence; global asymptotic stability; linear proportional-derivative feedback; position control; rigid robot manipulator; robot dynamics; robustness; uncertain payload; Asymptotic stability; Linear feedback control systems; Manipulators; PD control; Payloads; Pi control; Position control; Proportional control; Regulators; Robots; Global stability; Manipulators; PID control; Robot control;
Conference_Titel :
Information Technology and Computer Science, 2009. ITCS 2009. International Conference on
Conference_Location :
Kiev
Print_ISBN :
978-0-7695-3688-0
DOI :
10.1109/ITCS.2009.262
