Vibration dynamics of high speed train with Pareto optimized damping of bogie suspension to enhance safety and comfort
Paper in proceeding, 2010
A methodology to find the optimized, with respect to safety and comfort, lateral damping of both the primary and secondary suspensions of a bogie system for a high speed train (HST) has been developed, implemented and evaluated. The vibration dynamics of three-car HST with safety-comfort Pareto optimized lateral damping of bogie system is analyzed. The sensitivity of vibration dynamics of the HST having Pareto optimized lateral damping and traveling with 250 km/h is studied for different vehicle speeds, wheels and rails wornness, train service loads and frictions between wheels and rails. Numerical results show that Pareto optimized lateral damping of bogie system can significantly improve passenger comfort while maintain safety and reliability of HST performance.
High speed railway vehicles
Bogie suspension
Multi-objective optimization
Pareto optimality
Author
Albin Johnsson
Chalmers, Applied Mechanics, Dynamics
Viktor Berbyuk
Chalmers, Applied Mechanics, Dynamics
Mikael Enelund
Chalmers, Applied Mechanics, Dynamics
Proceedings of ISMA2010 International Conference on Noise and Vibration Engineering Including USD2010, Leuven, 20-22 September 2010, Editors P. Sas, B. Bergen
3477-3488
9789073802872 (ISBN)
Subject Categories (SSIF 2011)
Computational Mathematics
Reliability and Maintenance
Vehicle Engineering
ISBN
9789073802872