Abstract
Safety and efficiency are two critical issues at highway-rail grade crossings (HRGCs) and their nearby intersections. Standard traffic signal optimization programs are not designed to work on roadway networks that contain multiple HRGCs, because their underlying assumption is that the roadway traffic is in a steady-state. During a train event, steady-state conditions do not occur. This is particularly true for corridors that experience high train traffic (e.g., over 2 trains per hour). In this situation, the non-steady-state conditions predominate. This paper develops a simulation-based methodology for optimizing traffic signal timing plan on corridors of this kind. The primary goal is to maximize safety, and the secondary goal is to minimize delay. A Genetic Algorithm (GA) was used as the optimization approach in the proposed methodology. A new transition preemption strategy for dual tracks (TPS_DT) and a train arrival prediction model were integrated in the proposed methodology. An urban road network with multiple HRGCs in Lincoln, NE, was used as the study network. The microsimulation model VISSIM was used for evaluation purposes and was calibrated to local traffic conditions. A sensitivity analysis with different train traffic scenarios was conducted. It was concluded that the methodology can significantly improve both the safety and efficiency of traffic corridors with HRGCs.
Highlights
In the US, there are an estimated 209,655 highway-rail grade crossings (HRGCs) [1]
It was observed that more than one train passed the HRGCs during the simulation, and the transition preemption strategy for dual tracks (TPS DT) module could not be initiated for all the preemption events due to the limitation of the Vehicle Actuated Programming (VAP) module in VISSIM [27]
The Genetic Algorithms (GA)-based optimization program combined with the new transition preemption strategy for dual tracks (TPS DT) was found to significantly improve both safety and efficiency of the corridor
Summary
In the US, there are an estimated 209,655 highway-rail grade crossings (HRGCs) [1]. Because the roadway and railway intersect at-grade, these crossings may have negative impacts on both safety and operations of the adjoining roadway network. Roadway intersections near highway-rail grade crossings (IHRGCs) need to be operated in such a way that queues that are on or close to the HRGCs may be cleared prior to a train arrival. These special traffic signal operating instructions at an IHRGC are referred to in the literature as train preemption [3]. TRANSYT-7 F [6] and SYNCRHO [7] are two commonly used programs for optimizing signal timings, and both use macroscopic-deterministic models and a delay-based objective function. The criteria for the termination of the GA procedures can be either a convergence threshold of the fitness value, that is, the difference between the best fitness value and the average fitness value of the current population, or the maximum number of generations to evolve
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