Paper Info
Title
Optimal Mainline Variable Speed Limit Control to Improve Safety on Large-Scale Freeway Segments
Abstract
AbstractThe primary objective of this study was to develop a procedure for determining the optimal variable speed limit VSL control strategy that aims at reducing both collision risks and injury severity on large-scale freeway segments. The achieved reduction in collision risks and injury severity were evaluated using real-time crash risk and severity prediction models. A modified cell transmission model CTM that took into consideration the capacity drop and the stop-and-go traffic was used to simulate the traffic operations with the VSL control. A computational procedure that incorporated the genetic algorithm and the CTM was proposed for the optimization of critical VSL control factors. Three scenarios with various placements of VSL signs on freeway mainlines were evaluated. The results showed that the optimal VSL control successfully decreased the collision risks by 22.62% and reduced the injury severity of crashes by 14.67%. We also evaluated how drivers' compliance to speed limits affected the effectiveness of VSL control. The safety effects decreased as drivers' compliance rate to the VSL control decreased. The finding suggests the use of speed enforcement techniques together with the VSL control to achieve the optimum control effects.
Year
DOI
Venue
2016
10.1111/mice.12164
Periodicals
Field
DocType
Volume
Optimum control,Crash,Mathematical optimization,Cell Transmission Model,Transport engineering,Collision,Predictive modelling,Engineering,Speed limit,Reliability engineering,Genetic algorithm
Journal
31
Issue
ISSN
Citations 
5
1093-9687
4
PageRank 
References 
Authors
0.44
4
4
Name
Order
Citations
PageRank
Zhibin Li1416.93
Pan Liu2366.75
Chengcheng Xu3374.96
Wei Wang49311.54