Title :
Robust Active Vibration Control for Rail Vehicle Pantograph
Author :
Lin, Yu-Chen ; Lin, Chun-Liang ; Yang, Chih-Chieh
Author_Institution :
Nat. Chung Hsing Univ, Taichung
fDate :
7/1/2007 12:00:00 AM
Abstract :
This paper deals with vibration control for a light rail vehicle´s pantographs. The concepts of force cancellation, skyhook damper, and contact wire-following spring are jointly applied to constitute an effective controller for vibration suppression. Performance of the control system is evaluated on the basis of variations of displacement and acceleration between the pantograph and contact wire. An active control law is developed by means of a linear quadratic regulator design to derive a stabilizing control law for the pantograph system with the time-varying contact force between the pantograph shoe and catenary. A systematic optimization process with Pareto set and variable weights for the design of active suspension parameters of the pantograph using a constrained multiobjective evolutionary algorithm is developed. Extensive simulations are well performed to verify our proposed design.
Keywords :
Pareto analysis; evolutionary computation; force control; light rail systems; linear quadratic control; mechanical contact; pantographs; robust control; shock absorbers; vibration control; Pareto set; contact wire-following spring; force cancellation; light rail vehicle; linear quadratic regulator design; multiobjective evolutionary algorithm; rail vehicle pantograph; robust active vibration control; skyhook damper; stabilizing control; vibration suppression; Control systems; Damping; Displacement control; Force control; Light rail systems; Robust control; Shock absorbers; Springs; Vehicles; Vibration control; Evolutionary algorithm (EA); linear quadratic regulator; pantograph; rail vehicle; vibration suppression;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2007.897246
