01123225

Component

https://doi.org/10.3141/2103-10

http://scholar.google.com...cher&publication_year=2009

This paper demonstrates the use of a discrete event traffic microsimulation model to study the safety impacts of the introduction of an incident reduction (IR) function into a vehicle-actuated traffic signal controller. The IR function is based on that used in signal controllers in Sweden. The IR function is designed to reduce the number of stop-or-go decisions by drivers when caught in the dilemma zone at the onset of the amber signal. A correctly adapted IR function was found to greatly enhance the safety performance of signalized intersections. The simulation experiment described in the paper is based on empirical data from a suburban vehicle-actuated signalized intersection. It was conducted specifically to investigate the effects of the standard IR function on three proximal safety indicators: time to collision, red light violations, and required braking rates. The simulation results demonstrate a significant improvement in the time to collision (22%), red light violations (6%), and required braking rate when the IR function was in operation and a small positive influence on traffic movement through the intersection. Importantly, this study has illustrated the potential for using traffic microsimulation modeling for traffic safety evaluation.

01138796

09-0220

English

pp 80-87

2009

Transportation Research Record: Journal of the Transportation Research Board

9780309126182

Print

Figures (6) ; References (18) ; Tables (3)

Actuated traffic signal controllers; Braking; Dilemma zone; Microsimulation; Red light running; Signalized intersections; Traffic incidents; Traffic safety; Traffic simulation

Time to collision

Highways; Operations and Traffic Management; Safety and Human Factors; I73: Traffic Control; I80: Accident Studies

TRIS, TRB, ATRI

Jan 30 2009 4:30PM

• Analysis of Effects of Pavement Marking Retroreflectivity on Traffic Crash Frequency on Highways in North Carolina: Application of Artificial Neural Networks and Generalized Estimating Equations
• Analyzing Different Parameterizations of the Varying Dispersion Parameter as a Function of Segment Length
• Calibration of the Highway Safety Manual's Accident Prediction Model for Italian Secondary Road Network
• Comparison of Simulated Freeway Safety Performance with Observed Crashes
• Developing Accident Modification Functions: Exploratory Study
• Elementary Units of Exposure
• Empirical Evaluation of Alternative Approaches in Identifying Crash Hot Spots: Naive Ranking, Empirical Bayes, and Full Bayes Methods
• Incorporating Traffic Operation Measures in Safety Analysis at Signalized Intersections
• Road Data Aggregation and Sectioning Considerations for Crash Analysis
• Safety Effectiveness of Lane and Shoulder Width Combinations on Rural, Two-Lane, Undivided Roads
• Safety Evaluation of Curve Delineation Improvements: Empirical Bayes Observational Before-and-After Study
• Speed and Safety