Title :
Energy saving for automatic train control in moving block signaling system
Author :
Gu Qing ; Meng Yu ; Ma Fei
Author_Institution :
Sch. of Mech. Eng., Univ. of Sci. & Technol. Beijing, Beijing, China
Abstract :
With rapid development of the railway traffic, the moving block signaling system (MBS) method has become more and more important for increasing the track capacity by allowing trains to run in a shorter time-headway while maintaining the required safety margins. In this framework, the tracking target point of the following train is moving forward with its leading train. This paper focuses on the energy saving tracking control of two successive trains in MBS. Nonlinear programming method is used to optimize the energy-saving speed trajectory of the following train. The real-time location of the leading train could be integrated into the optimization process. Due to simplicity, it can be used for online implementation. The feasibility and effectiveness are verified through simulation. The results show that the new method is efficient on energy saving even when disturbances present.
Keywords :
energy conservation; nonlinear programming; rail traffic control; railway safety; signalling; MBS method; automatic train control; energy saving tracking control; energy-saving speed trajectory optimization; following train; leading train; moving block signaling system; nonlinear programming method; optimization process; railway traffic; real-time location; safety margins; track capacity; tracking target point; Energy consumption; Optimization; Rail transportation; Safety; Target tracking; Time factors; Trajectory; automatic train operation (ATO); automatic train protection (ATP); energy saving; moving block signaling (MBS); tracking; train speed trajectory;
Journal_Title :
Communications, China
DOI :
10.1109/CC.2014.7085379
