Field Implementation of Directional Rumble Strips to Deter Wrong-Way Driving on Freeways
Publication: Journal of Transportation Engineering, Part A: Systems
Volume 146, Issue 9
Abstract
This paper presents the field implementation results of directional rumble strips (DRS), a low-cost traffic control device (TCD) designed to deter wrong-way driving (WWD) on freeways. Southbound off-ramps at Exits 208 and 284 on I-65 in Alabama were selected for implementation because they were ranked as high-risk locations by a network screening tool. A previous study developed and tested five DRS designs (A–E) with various configurations (e.g., A1, A2, and so forth). Three patterns (D3, C, and E2) were recommended for field implementation according to the previous test results. Pattern D3 was installed at the off-ramp terminal near the stop bar or yield line. Pattern C was implemented at the segment between the terminal and ramp curve. Pattern E2 was placed on the tangent part before the ramp curve. WWD incidents and distances before and after the implementation were collected using cameras. Field driving tests were conducted to collect sound and vibration data at various speed categories for both right-way (RW) and wrong-way (WW) directions. Before-and-after studies evaluated the effectiveness of DRS patterns in deterring WWD incidents. Sound and vibration analyses quantified the differences between RW and WW drivers’ perceptions. Results showed that the number of WWD incidents and average driving distances significantly decreased, by roughly 90% and 85%, respectively, after implementing all three DRS patterns. The results confirmed that WW drivers can perceive elevated sound and vibrations when passing the DRS. A general guideline was developed for implementing three different DRS on freeway off-ramps to deter WWD.
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Data Availability Statement
Some or all data, models, or code that support the findings of this study are available from the corresponding author upon reasonable request.
Acknowledgments
The authors thank district administrators from ALDOT, Tracy Fletcher and Ben Thackerson, for arranging temporary traffic control during the field implementation of DRS at Exits 208 and 284 on I-65 in Alabama.
References
ALDOT (Alabama DOT) 2018. “Alabama traffic data.” Accessed January 1, 2018. https://aldotgis.dot.state.al.us/atd/default.aspx#.
Cain, B., D. Riley, and P.-J. McKelvey. 2018. “Summary and initial findings of the Arizona Department of Transportation wrong-way driver pilot system.” In Proc., Intelligent Transportation Society of America Annual Meeting. Kent, UK: Route One Publishing.
Cooner, S. A., A. S. Cothron, and S. Ranft. 2004. Countermeasures for wrong-way movement on freeways: Overview of project activities and findings. Austin, TX: Texas Dept. of Transportation.
FHWA (Federal Highway Administration). 2003. Manual on uniform traffic control devices. Washington, DC: USDOT.
Harmon, T., G. B. Bahar, and F. B. Gross. 2018. Crash costs for highway safety analysis. Washington, DC: Federal Highway Administration, Office of Safety.
Lin, P. S., C. Chen, S. Ozkul, and M. Rajalingola. 2018. Testing and evaluation of freeway wrong-way detection systems. Tallahassee, FL: Florida Dept. of Transportation.
NCRRS (National Center for Rural Road Safety). 2018. “Wrong way driver detection & warning system.” Accessed March 10, 2019. https://ruralsafetycenter.org/wp-content/uploads/2018/03/CC5.pdf.
Pour-Rouholamin, M., H. Zhou, J. Shaw, and P. Tobias. 2015. “Current practices of safety countermeasures for wrong-way driving crashes.” In Proc., TRB 94th Annual Meeting Compendium of Papers. Washington, DC: Transportation Research Board. https://doi.org/10.13140/2.1.1050.6564.
Rose, D. 2011. “Wrong-way vehicular detection proof of concept.” In Proc., Presented at the 18th World Congress on Intelligent Transport Systems. Kent, UK: Route One Publishing.
Sexton, T. V. 2014. Evaluation of current centerline rumble strip design(s) to reduce roadside noise and promote safety. Olympia, WA: Washington Dept. of Transportation.
Tolstov, G. P. 2012. Fourier series. North Chelmsford, MA: Courier Corporation.
TransCore. 2008. White paper: Wrong-way detection system procurement. Houston: Harris County Toll Authority.
Xue, C., H. Zhou, D. Xu, and P. Liu. 2019. “Field verification of directional rumble strips to deter wrong-way freeway driving.” J. Transp. Eng., Part A: Syst. 145 (8): 04019031. https://doi.org/10.1061/JTEPBS.0000254.
Zhou, H., and M. Atiquzzaman. 2019. “Logistic regression models to predict wrong-way driving risk at freeway off-ramp terminals.” Accessed February 12, 2019. http://eng.auburn.edu/files/centers/hrc/aldot-wwd-predictive.pdf.
Zhou, H., and M. P. Rouholamin. 2014a. Guidelines for reducing wrong-way crashes on freeways. Urbana, IL: Illinois Center for Transportation/Illinois Dept. of Transportation.
Zhou, H., and P. P. Rouholamin. 2014b. Proceedings of the 2013 National Wrong-Way Driving Summit. Urbana, IL: Illinois Center for Transportation/Illinois Dept. of Transportation.
Zhou, H., C. Xue, L. Yang, and A. Luo. 2018. Directional rumble strips for reducing wrong-way-driving freeway entries. Minneapolis: Roadway Safety Institute, Univ. of Minnesota.
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Information
Published In
Journal of Transportation Engineering, Part A: Systems
Volume 146 • Issue 9 • September 2020
Copyright
©2020 American Society of Civil Engineers.
History
Received: Jan 28, 2020
Accepted: Apr 10, 2020
Published online: Jun 27, 2020
Published in print: Sep 1, 2020
Discussion open until: Nov 27, 2020
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