Running trajectory optimization to mitigate delay propagation in highly frequent train service based on continuous train position acquisition

In a highly frequent urban train service, mitigation of delay propagation due to excessive dwell time is significant. The aim of this paper is to present a speed control method to minimize the interval between departure and arrival at a station under the uncertainty of the departure time of the prec...

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Published in	2021 IEEE 30th International Symposium on Industrial Electronics (ISIE) pp. 1 - 6
Main Authors	Sakai, Keisuke, Ohnishi, Wataru, Koseki, Takafumi, Tanaka, Kazuhiro, Morita, Shunji, Tokuhara, Katsutoshi, Kasai, Koki
Format	Conference Proceeding
Language	English
Published	IEEE 20.06.2021
Subjects	Delay propagation Headway Industrial electronics Knock-on delay Process control Rail transportation Real-time systems Sensitivity analysis Train group control Trajectory optimization Uncertainty Urban railway Velocity control
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Abstract	In a highly frequent urban train service, mitigation of delay propagation due to excessive dwell time is significant. The aim of this paper is to present a speed control method to minimize the interval between departure and arrival at a station under the uncertainty of the departure time of the preceding train. The optimal trajectory of the following train is through the approach point after the departure of the preceding train and the optimal stopping position before it. We evaluate the performance by assuming communication-based continuous realtime train position acquisition and moving block system except for station sections. The approach mitigates delay propagation without the prediction of departure time.
AbstractList	In a highly frequent urban train service, mitigation of delay propagation due to excessive dwell time is significant. The aim of this paper is to present a speed control method to minimize the interval between departure and arrival at a station under the uncertainty of the departure time of the preceding train. The optimal trajectory of the following train is through the approach point after the departure of the preceding train and the optimal stopping position before it. We evaluate the performance by assuming communication-based continuous realtime train position acquisition and moving block system except for station sections. The approach mitigates delay propagation without the prediction of departure time.
Author	Tokuhara, Katsutoshi Ohnishi, Wataru Tanaka, Kazuhiro Kasai, Koki Morita, Shunji Sakai, Keisuke Koseki, Takafumi
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Snippet	In a highly frequent urban train service, mitigation of delay propagation due to excessive dwell time is significant. The aim of this paper is to present a...
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SubjectTerms	Delay propagation Headway Industrial electronics Knock-on delay Process control Rail transportation Real-time systems Sensitivity analysis Train group control Trajectory optimization Uncertainty Urban railway Velocity control
Title	Running trajectory optimization to mitigate delay propagation in highly frequent train service based on continuous train position acquisition
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