论文信息 - Moving horizon control and estimation of a Pantograph-Catenary system

Moving horizon control and estimation of a Pantograph-Catenary system

This paper deals with the moving horizon estimation and predictive control synthesis of a Pantograph-Catenary (PAC) system. The pantograph is the element of the train that collects electric current from the overhead line, the catenary. At high speeds, the contact between the pantograph and the catenary becomes less and less consistent resulting in poor current collection performance. This variation produces coupling and uncoupling from the electrical network, which may further cause power losses, electric arc formations and important perturbations in the entire electrical network. Most nowadays train systems use passive elements to limit the variations of the contact. This paper proposes a closed loop control of contact force using a Model Predictive Control (MPC) strategy for the control and a Moving Horizon Estimation (MHE) for the observer.

Sorin Olaru | Pedro Rodriguez-Ayerbe | Mihai-Florin Taran | Alexandru Ticlea

[1] Ahmed Rachid,et al. Pantograph catenary control and observation using the LMI approach , 2011, IEEE Conference on Decision and Control and European Control Conference.

[2] Warren P. Seering,et al. Active Control of a High-Speed Pantograph , 1997 .

[3] Yukie Ikedaa,et al. Knowledge Based and Intelligent Information and Engineering Systems An Evacuation Route Planning for Safety Route Guidance System after Natural Disaster Using Multi-Objective Genetic Algorithm , 2016 .

[4] Simon D. Walters. Simulation of Fuzzy Control Applied to a Railway Pantograph-Catenary System , 2010, KES.

[5] Kazuo Yoshida,et al. Running Test on Current Collector with Contact Force Controller for High-Speed Railways , 1997 .

[6] Arie Levant,et al. Output-feedback control of the contact-force in high-speed-train pantographs , 2001, Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228).

[7] Sorin Olaru,et al. A model predictive control approach for the Pantograph-Catenary positioning system , 2012, KES.

[8] A. Alessandri,et al. Computationally Efficient, Approximate Moving Horizon State Estimation for Nonlinear Systems , 2010 .