Simulation-Based Schedule Optimization for Virtual Coupling-Enabled Rail Transit Services with Multiagent Technique

Abstract: Virtual coupling (VC) is a train-centric next generation signalling system, which can enable multiple trains to operate in a formation just like one train or decouple separately on-the-run or at station flexibly or as planned. With the aim of optimizing the interdeparture train headway time, providing the variable capacity for diverse passenger demand, maximizing the passenger riding comfort degree, and minimizing passenger travel cost and train operation cost, the dynamic schedule for VC-enabled rail transit … Show more

“…In ref. [110], a VC-enabled rail transit entity for simulation is represented with the multi-agent technique, including a mathematical formula for the calculation of the train operation cost and passenger travel cost; the degree of passengers' comfort is also proposed. In addition, the operational principles for flexible and self-organising VC-enabled trains are defined.…”

Virtual Coupling in Railways: A Comprehensive Review

“…In ref. [110], a VC-enabled rail transit entity for simulation is represented with the multi-agent technique, including a mathematical formula for the calculation of the train operation cost and passenger travel cost; the degree of passengers' comfort is also proposed. In addition, the operational principles for flexible and self-organising VC-enabled trains are defined.…”

Virtual Coupling in Railways: A Comprehensive Review

Deployment of Public Charging Stations for BEVs Using an Agent-Based Modeling Approach

Exploring the intra-platoon planning problem for heterogeneous train traffic under virtual coupling in the railway network via simulation