Accurate and efficient railway shunting operations are crucial for the operation of intelligent marshalling yards. This article proposes a closed-loop scheduling method that integrates fuzzy analytic hierarchy process (F-AHP), graph neural network (GNN), and multi-objective optimization algorithm to achieve intelligent and automated shunting operations through the "perception decision execution" chain. The system integrates multi-source sensor data (train position, switch status, track occupancy, etc.), uses GNN for track conflict prediction, and determines multi-objective weights based on F-AHP. Combined with multi-objective optimization, it generates Pareto optimal scheduling scheme. The experiment was conducted at a large marshalling yard in the southwest region, and the results showed that compared with manual scheduling, the system reduced the average operating time by 35.7% ± 2.1%, single task energy consumption by 21.4% ± 1.5%, and scheduling conflict rate by 87.5% ± 3.2%, while improving judgment accuracy to 97.8% (evaluated over 20 runs with p < 0.01).The research has verified the comprehensive advantages of the proposed method in terms of efficiency, energy consumption, and safety, and has the ability to transplant and expand across stations. To support reproducibility, we also specify the optimization model, variable and constraint definitions, the GNN architecture (features, loss, hyper-parameters), and the rolling-horizon settings with quantified latency budgets.

Zhang B ,Zhao J ,D’Ariano A , et al.An iterative method for integrated hump sequencing, train makeup, and classification track assignment in railway shunting yard[J].Transportation Research Part B,2024,190103087-103087.

Hyun-Suk J ,Philipp N ,Harish M , et al.Automated rerailing of a road-rail shunting vehicle on road-level tracks using 2D-Lidar[J].Proceedings of the Institution of Mechanical Engineers,2024,238(7):886-891.

Reichmann M ,Himmelbauer S G ,Wagner A , et al.Introducing the concept of grades of automation for shunting operations[J].Journal of Rail Transport Planning & Management,2025,33100500-100500.

Fang G ,Kunhao L .Demand Analysis of Hybrid Shunting Locomotive Application at Railway Technical Stations Based on the “Double Carbon” Goal[J].Probe - Environmental Science and Technology,2024,6(3):

Bosi T ,Bigi F ,D'Ariano A , et al.Optimal management of full train load services in the shunting yard: A comprehensive study on Shunt-In Shunt-Out policies[J].Computers & Industrial Engineering,2024,188109865-.

Hyun-Suk J ,Frank E ,Christian S .Experimental investigation on RFID-odometer-based localization of an automated shunting vehicle[J].Proceedings of the Institution of Mechanical Engineers,2024,238(1):14-23.

Shinpolat S ,Sakijan K ,Sherzod J , et al.RETRACTED: Digital design trends of train and shunting operations at railway stations[J].E3S Web of Conferences,2024,549

Shinpolat S ,Utkir K ,Sakijan K , et al.Improving use of shunting locomotives based on changes in infrastructure of railway station[J].E3S Web of Conferences,2023,365

Huan L ,Hongxu C ,Yulin W .The Sequence Optimization of the Railway Tree-Shaped Special Line's Shunting for Taking-out and Placing-in of Wagons[J].Tehnički vjesnik,2023,30(5):1404-1410.

ZhongM ,YueY ,ZhouL , et al.Parallel optimization method of train scheduling and shunting at complex high‐speed railway stations[J].Computer‐Aided Civil and Infrastructure Engineering,2023,39(5):731-755.

Zhang Y ,Hu R ,Zeng Q , et al.Optimal Train Platforming with Shunting Operations for Multidirectional Passenger Stations: A Case Study of Guangzhou Station[J].Mathematics,2023,11(14):

Haoying P ,Lijun D ,Zheming J , et al.A multi-objective optimal sizing scheme for hybrid traction power supply systems onboard shunting locomotive[J].Alexandria Engineering Journal,2023,72399-414.

Max Z ,Thomas K .A rolling horizon approach for shunting operations – An emission oriented simulation study[J].Cleaner Logistics and Supply Chain,2023,6

Xiaoming X ,M. M D .Train shunting with service scheduling in a high-speed railway depot[J].Transportation Research Part C,2022,143

Ming H ,Qiuhua T ,D. N J G , et al.The shunting scheduling of EMU first-level maintenance in a stub-end depot[J].Flexible Services and Manufacturing Journal,2022,35(3):754-796.

Abdulaziz Y ,Otabek K ,Nuriddin Z , et al.Prediction of the stress - strain state of the bogie frames of shunting locomotives using the finite element method[J].E3S Web of Conferences,2023,40103041-03041.

Tao Y .Quality Analysis of Railroad Train Shunting Operation Plan Using the Intelligent Body Model[J].Advances in Multimedia,2022,2022

A. D S ,V. S K ,V. D O .Methodology for Selecting the Multistage Methods of Train Classification and Design Parameters of Specialized Shunting Facilities Based on Modeling[J].Transportation Research Procedia,2022,61323-332.

Mohammed A ,Aos A ,Musaad B , et al.Optimization for Sustainable Train Shunting Services Using DMAIC Cycle[J].Sustainability,2022,14(3):1719-1719.

Siyuan F ,Peibo D ,Jintao K , et al.Coordinating ride-sourcing and public transport services with a reinforcement learning approach[J].Transportation Research Part C,2022