DEVELOPMENT OF A MICROSCOPIC TRAFFIC SIMULATION FOR DESIGN AND OPERATIONAL ANALYSIS OF TOLL STATIONS

Authors

  • Hassan T. Abdelwahab Department of Public Works, Faculty of Engineering, Cairo University, Giza, Egypt

DOI:

https://doi.org/10.11113/mjce.v28.15711

Keywords:

Traffic simulation, modeling, toll stations, driver decision making.

Abstract

Highway toll stations constitute a unique type of transportation system that requires special analysis. Tolls are used as an instrument to finance new road infrastructure throughout the world and collection have become an industry of its own. Modeling toll stations for design, assessment, and traffic operational purposes is a very demanding task as a result of the drivers' complex lane selection behavior and their interaction with other factors such as payment options, queue lengths, and toll station configuration. The objective of this paper is to develop a microscopic traffic simulation model for design, assessment, and operational analysis of toll stations. The model incorporates the stochastic nature of traffic arrival, toll collection time, and driver decision making. The developed simulation model was used to analyze 750 different scenarios of traffic volumes, toll booth capacity, driver types, and configuration of toll station. Recommendations on number of toll booths are presented in order to process peak traffic hours without excessive delay times or long queues. Results showed that at traffic volume equals 2,000 vehicles per hours and more than 50% cash as the means of payment, the number of toll booths should be around 6 to 10. Whereas for traffic volume equals 4,000 vehicles per hours, the number of toll booths should be around 14 to 18.

References

Abbas, K. (2003), Road user charging for roads in Egypt: A case study of Cairo-Alexandria Toll Road, Association for European Transport, 2003.

Alrowaie, A. (2011), The Effect of Time-Advance Mechanism in Modeling and Simulation, Dissertation, Naval Postgraduate School, Monterey, CA 93943-5000, USA.

Burris, B., and Hildebrand, E. (1996), Using Microsimualtion to Quantify the Impact of Electronic Toll Collection, ITE Journal, Volume 66, Issue No. 7, Institute of Transportation Engineers.

Danko J. & Gulewicz V. (1994), Insight through innovation: a dynamic approach to demand based toll plaza lane staffing, Conference Proceedings, IEEE Conference Publications Simulation, pp. 1116 - 1123,

Chung, C. (2004), Simulation Modeling Handbook: A Practical Approach, Industrial and Manufacturing Engineering Series, CRC Press.

DMRB (2008), Design Manual for Roads and Bridges, Volume 6 Road Geometry, Section 3 Highway Features, Part 6, TA 98/08, The Layout of Toll Stations, UK Department of Transport.

FHWA (2004), Traffic Analysis Toolbox- Volume III: Guidelines for Applying Traffic Microsimulation Modeling Software. Federal Highway Administration United States Department of Transportation.

Fuller, B. (2011), Integration of Toll Station Modeling into CORSIM, Master Thesis, University of Florida, USA.

Garber, N., and Hoel, L. (2009), Traffic and Highway Engineering, Fourth Edition, Cengage Learning.

Gibbons, J., and Chakraborti, S. (2003), Nonparametric. Statistical Inference, Fourth Edition, Marcel Dekker, Inc., New York, USA.

GoE (2010), Rod El Farag Axis PPP Project, Information Memorandum, Public-Private Partnership Program, Government of Egypt, Egypt.

HCM (2010), Highway Capacity Manual, Transportation Research Board of the National Academies of Science, USA.

Hewitt, S. (2002), Comparing Analytical and Discrete-Event Simulation Models of Manufacturing Systems, Master's Thesis, Institute for Systems Research, University of Maryland, USA.

HNTB (2009), Southern Toll Plaza Existing Site Evaluation, Technical Report, Maine Turnpike Authority, USA.

IFC (2008), Toll System Report, Concession of Cairo-Alexandria-Marsa Matrouh Freeway, International Finance Corporation, World Bank Group.

Lieberman, E., Chang, J., Andrews, B. (2004), Applying Microsimulation to Evaluate, Plan, Design and Manage Toll Stations, At the Crossroads: Integrating Mobility Safety and Security. ITS America, 14th Annual Meeting and Exposition.

May, A. (1990), Traffic Flow Fundamentals, Prentice-Hall, Inc.

Nelson, B. (2013), Foundations and Methods of Stochastic Simulation, A First Course, International Series in Operations Research & Management Science, Volume 187, Springer.

Osborne, R. (2012), Implementing Toll Station Analysis into FREEPLAN, Master Thesis, University of Florida, USA.

Ozbay, K., Mudigonda, S., Bartin, B. (2010), On the Significance of Considering Some Important, Data-supported Factors in Toll Station Simulation Models, Proceedings of Traffic Flow Theory Committee Mid-year Meeting.

Schaufler, A. (1997), Toll Station Design: A Synthesis of Highway Practice, TRB NCHRP Synthesis 240.

Woo, H., and Hoel, L. (1991), An Investigation of Toll Station Capacity and Level of Service, Virginia Department of Transportation, Virginia, USA.

Downloads

Published

2018-07-16

Issue

Section

Articles

How to Cite

DEVELOPMENT OF A MICROSCOPIC TRAFFIC SIMULATION FOR DESIGN AND OPERATIONAL ANALYSIS OF TOLL STATIONS. (2018). Malaysian Journal of Civil Engineering, 28(2). https://doi.org/10.11113/mjce.v28.15711