Title :
Modeling and Solving Real-Time Train Rescheduling Problems in Railway Bottleneck Sections
Author :
Lei Chen ; Roberts, Clive ; Schmid, Felix ; Stewart, Edward
Author_Institution :
Sch. of Electron., Electr. & Comput. Eng., Univ. of Birmingham, Birmingham, UK
Abstract :
There usually exists a high density of traffic through bottleneck sections of mainline railways, where a perturbation of one single train could result in long consequential delays across a number of trains. In the event of disturbances, rescheduling trains approaching the bottleneck will be necessary to increase the throughput of the section. To model the real-time train rescheduling problems around bottleneck sections, a mixed-integer programming model is presented in this paper. An innovative improved algorithm (DE_JRM) is developed to solve the problem. The model and the algorithms are validated with a case study using Monte Carlo methodology, which demonstrates that the proposed algorithm can reduce the weighted average delay and satisfy the requirements of real-time traffic control applications.
Keywords :
Monte Carlo methods; delays; integer programming; perturbation techniques; rail traffic control; railways; scheduling; DE_JRM; Monte Carlo methodology; innovative improved algorithm; mainline railways; mixed-integer programming model; railway bottleneck sections; real-time traffic control applications; real-time train rescheduling problems; train delays; weighted average delay; Delays; Junctions; Mathematical model; Portals; Rail transportation; Real-time systems; Vectors; Bottleneck section; differential evolution (DE); railway traffic management; train rescheduling;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2014.2379617
