The problem of low-frequency lateral train-car vibration is an important issue surrounding the design of high-speed trains. Passive solutions such as stiffening the car chassis are impractical because of the weight increase. Semi-passive solutions, such as modifying the structural dynamics of the car body through non-rigid coupling of heavy underfloor equipment does not incur a weight penalty, but does not sufficiently reduce the vibrations. However, computer simulations based on signals derived from a dynamic computer model of a train car indicates that the incorporation of a multi-reference feed forward active control system, in addition to the semi-passive approach, is likely to introduce a substantial reduction in the lateral vibration level. The complexity of the control system may be reduced by using a robust feedback-LMS controller. Results from computer simulations indicate that a feedback system would function as well as, and potentially better than, a feedforward system. The control results illustrate an attenuation of the lateral train-car vibration by up to 15 dB.
Feedback-LMS control of lateral vibration in a train car
2001
8 Seiten, 5 Bilder, 10 Quellen
Aufsatz (Konferenz)
Englisch
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