Research on operation optimization of heavy-haul combined trains in long and steep downhill sections based on reinforcement learning

Research on operation optimization of heavy-haul combined trains in long and steep downhill sections based on reinforcement learning

To mitigate longitudinal impulse and address challenge posed by continuous air braking operations in long and steep downhill sections for 20 000-ton heavy haul combined trains, this paper proposes an approach for operation optimization of such trains featuring a long formation in such sections based...

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Bibliographic Details
Main Authors: WANG Jianhua, WANG Chunyi, ZENG Zhou, WANG Cong, WANG Qingyuan, YANG Hang
Format: Article
Language:zho
Published: Editorial Department of Electric Drive for Locomotives 2023-11-01
Series:机车电传动
Subjects:
heavy-haul combined train
air braking
long and steep downhill
neural network
reinforcement learning
heavy-haul rallway
Online Access:http://edl.csrzic.com/thesisDetails#10.13890/j.issn.1000-128X.2023.06.017
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Summary:To mitigate longitudinal impulse and address challenge posed by continuous air braking operations in long and steep downhill sections for 20 000-ton heavy haul combined trains, this paper proposes an approach for operation optimization of such trains featuring a long formation in such sections based on a data-driven algorithm. An air braking force prediction model was developed based on neural network learning focusing on the variation rules of air braking performance across different operating states, to incorporate differences in air braking characteristics across different trains and varied braking system states on same trains. Then, an operation optimization algorithm was designed, establishing a reward function that prioritized speed following features, based on reinforcement learning. This algorithm incorporated constraints including train traction/electric braking characteristics, braking application and release times of train pipes, speed limits, and operational smoothness, to optimize the operation strategy for heavy-haul combined trains in long and steep downhill sections by reinforcement learning. The proposed air braking simulation model and operation optimization algorithm were verified using data collected from operation of real trains, confirming their feasibility and rationality. The results show the effectiveness of the proposed air braking force prediction model in predicting performance of air braking systems on running trains. Compared to manual driving, the optimized operation strategy plays an effective role in reducing longitudinal impulse and maximum coupler force to ensure the safety during train operation.
ISSN:1000-128X

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