An integrated micro-macro approach for high-speed railway energy-efficient timetabling problem

An integrated micro-macro approach for high-speed railway energy-efficient timetabling problem

•Integrate train trajectory optimization with timetabling.•Pre-solved segment-level train trajectory is to improve computational efficiency.•Consider dynamic headways between two successive trains.•A fast algorithm is proposed to find the near-optimum solution. Energy efficiency of train operations...

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Published in:Transportation research. Part C, Emerging technologies Vol. 112; pp. 88 - 115
Main Authors: Xu, Yan, Jia, Bin, Li, Xiaopeng, Li, Minghua, Ghiasi, Amir
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2020
Subjects:
Energy saving
High-speed railway
Speed control
Train timetabling
Train trajectory
Train trajectory
High-speed railway
Speed control
Energy saving
Train timetabling
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Abstract •Integrate train trajectory optimization with timetabling.•Pre-solved segment-level train trajectory is to improve computational efficiency.•Consider dynamic headways between two successive trains.•A fast algorithm is proposed to find the near-optimum solution. Energy efficiency of train operations is influenced largely by the speed control and the scheduled running time in the train timetable. In practice, the running time of a train is often determined in the train timetabling process at the macroscopic level while the energy-efficient speed control of a train on a segment is often determined at the microscopic level with the given timetable. They are usually optimized separately due to limited computational resources, which however may result in sub-optimal solutions. To address this issue, this paper proposes a novel integrated micro-macro approach for better incorporating train energy-efficient speed control into the railway timetabling process. Firstly, we formulated the integrated train timetabling and speed control optimization problem as a nonlinear mixed-integer programming model. Due to its complexity, we reformulate it on the basis of flow conservation theory in a space–time-speed (STS) network and solve the problem in two steps. In the first step, a set of pre-solved energy-efficient train trajectory templates is generated by a segment-level optimization approach with consideration of train travel time, entry speed and exit speed to save computation time. In the second step, a near-optimum train energy-efficient timetable solution is found by a fast algorithm, which consists of the shortest generalized cost path algorithm, conflict detection and resolution algorithm, and calculation of dynamic headways between two successive trains. The numerical experiments demonstrate that the developed approach provides better outcomes than the benchmark case in terms of both train journey time and energy consumption.
AbstractList •Integrate train trajectory optimization with timetabling.•Pre-solved segment-level train trajectory is to improve computational efficiency.•Consider dynamic headways between two successive trains.•A fast algorithm is proposed to find the near-optimum solution. Energy efficiency of train operations is influenced largely by the speed control and the scheduled running time in the train timetable. In practice, the running time of a train is often determined in the train timetabling process at the macroscopic level while the energy-efficient speed control of a train on a segment is often determined at the microscopic level with the given timetable. They are usually optimized separately due to limited computational resources, which however may result in sub-optimal solutions. To address this issue, this paper proposes a novel integrated micro-macro approach for better incorporating train energy-efficient speed control into the railway timetabling process. Firstly, we formulated the integrated train timetabling and speed control optimization problem as a nonlinear mixed-integer programming model. Due to its complexity, we reformulate it on the basis of flow conservation theory in a space–time-speed (STS) network and solve the problem in two steps. In the first step, a set of pre-solved energy-efficient train trajectory templates is generated by a segment-level optimization approach with consideration of train travel time, entry speed and exit speed to save computation time. In the second step, a near-optimum train energy-efficient timetable solution is found by a fast algorithm, which consists of the shortest generalized cost path algorithm, conflict detection and resolution algorithm, and calculation of dynamic headways between two successive trains. The numerical experiments demonstrate that the developed approach provides better outcomes than the benchmark case in terms of both train journey time and energy consumption.
Author Xu, Yan
Li, Xiaopeng
Li, Minghua
Jia, Bin
Ghiasi, Amir
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Keywords Train trajectory
High-speed railway
Speed control
Energy saving
Train timetabling
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Snippet •Integrate train trajectory optimization with timetabling.•Pre-solved segment-level train trajectory is to improve computational efficiency.•Consider dynamic...
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SubjectTerms Energy saving
High-speed railway
Speed control
Train timetabling
Train trajectory
Title An integrated micro-macro approach for high-speed railway energy-efficient timetabling problem
URI https://dx.doi.org/10.1016/j.trc.2020.01.008
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