Title :
Modeling and control of a Stewart platform based six-axis hybrid vibration isolation system
Author :
Han, P. ; Wang, T. ; Wang, D.H.
Author_Institution :
Key Lab. of Optoelectron. Technol. & Syst., Chongqing Univ., Chongqing
Abstract :
In this paper, a 6-axis hybrid vibration isolation system based on a cubic configuration of Stewart platform is explored and the dynamic model of the developed 6-axis hybrid vibration isolation platform, in which both the displacement excitations on the lower platform and the force excitations due to payloads on the upper platform are simultaneously considered, is established based on the Newton-Euler approach. Based on the dynamic model introduced in this paper, a force feedback control principle to isolate the displacement vibrations on the lower platform is proposed and analyzed. According to the developed dynamic model and control method, the numerical simulation results on the vibration isolation characteristics of the developed six-DOF hybrid vibration isolation platform in frequency domain are presented.
Keywords :
Newton method; displacement control; force feedback; numerical analysis; vibration isolation; Newton-Euler approach; Stewart platform control; Stewart platform modeling; cubic configuration; displacement vibrations; dynamic control; dynamic model; force feedback control principle; numerical simulation; six-axis hybrid vibration isolation system; Automation; Displacement control; Force control; Intelligent control; Isolation technology; Laboratories; Machining; Payloads; Space technology; Vibration control; Newton-Euler approach; Six degree-of-freedom (DOF); Stewart platform; cubic configuration; hybrid vibration isolation;
Conference_Titel :
Intelligent Control and Automation, 2008. WCICA 2008. 7th World Congress on
Conference_Location :
Chongqing
Print_ISBN :
978-1-4244-2113-8
Electronic_ISBN :
978-1-4244-2114-5
DOI :
10.1109/WCICA.2008.4593160
