Simulation of a Mathematical Model of Rail Transportation Scheduling Based on Bp Neural Network

• Published in: Journal of Electrical Systems Vol. 20; no. 6s; pp. 1552 - 1564
• Main Authors: Hu, Xiaoguang, Cui, Junpeng, Zhang, Rui
• Format: Journal Article
• Language: English
• Published: Paris Engineering and Scientific Research Groups 29.04.2024
• Subjects: Back propagation networks; Classification; Fuzzy logic; Fuzzy sets; Neural networks; Passengers; Rail transportation; Scheduling; Shipments; Transportation management; Transportation networks
• ISSN: 1112-5209
• DOI: 10.52783/jes.3074

Rail transportation, a cornerstone of modern logistics and passenger transit systems, plays a pivotal role in facilitating the efficient movement of goods and people across vast distances. Operating on a network of interconnected tracks, rail systems offer a reliable and environmentally sustainable mode of transportation, particularly for long-distance travel and freight shipments. The paper presents a comprehensive investigation into the application of advanced computational techniques in the realm of rail transportation management. Specifically, Mamdani fuzzy logic and Backpropagation (BP) Neural Networks are employed to address critical challenges in scheduling and classification within rail networks. The utilization of Mamdani fuzzy logic facilitates nuanced decision-making in scheduling processes, considering uncertainties and complexities inherent in rail operations. Through linguistic rules and fuzzy sets, the scheduling system can effectively adapt to various operational constraints and disruptions, leading to more resilient and efficient scheduling solutions. Additionally, the integration of BP Neural Network enhances classification accuracy and prediction capabilities, enabling precise forecasting of train movements, passenger flows, and other key variables.