Title :
Resonance stability in electrical railway systems - A dissipativity approach
Author_Institution :
Bombardier Transp. Switzerland, Zurich, Switzerland
Abstract :
We propose a theory for stability analysis of railway systems based on energy exchange principles between the infrastructure and rolling stock. We show that if the rolling stock and infrastructure is dissipative with respect to specially constructed power functions (more general than voltage× current) stability is guaranteed. We thereby provide a proof of the Input Admittance Criterion (IAC) - a widely used empirical criterion in the railway industry - as special case of our results. Application of the theory is demonstrated with an example from a metro train system.
Keywords :
electric admittance; railway electrification; railway industry; resonance; stability; IAC; dissipativity approach; electrical railway system; energy exchange principle; input admittance criterion; metro train system; power function; railway industry; resonance stability; rolling stock; Asymptotic stability; Harmonic analysis; Limiting; Rail transportation; Stability criteria; Vehicles;
Conference_Titel :
Control Conference (ECC), 2013 European
Conference_Location :
Zurich
