Empirical Analysis of Transit Network Evolution: Case Study of Mississauga, Ontario, Canada, Bus Network
Abstract
This paper presents the results of the first phase of an ambitious research project aiming at modeling the changes over a 15-year period in the bus network of the city of Mississauga, Ontario, Canada, a fast-growing suburb in the greater Toronto area. Data for the Mississauga transit network, along with a host of demographic and socioeconomic variables, were analyzed. For each main route, a buffer zone representing its vicinity was constructed, and the relevant variables captured inside these zones were computed for inclusion in the proposed empirical models. Other global variables for the city were included as well to account for other effects. Results from multiple regression and simultaneous equation models attempting to relate transit supply to this group of demographic, socioeconomic, and route-specific variables are presented. Time and demand–supply interactions were taken into consideration in the simultaneous equation models. The models show that supply increases with demand and population density and decreases with number of schoolchildren in the vicinity.
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References
1. Public Transportation and the Nation's Economy: A Quantitative Analysis of Public Transportation's Economic Impact. Cambridge Systematics, Inc., Cambridge, Mass., 1999.
2. Miller E. J. Hunt J. D. Abraham J. E. and Salvini P. A. Microsimulating Urban Systems. Computers, Environment, and Urban Systems, Vol. 28, No. 1 2004, pp. 9–44.
3. 1999 Service Plan. Toronto Transit Commission, Toronto, Ontario, Canada, 1998.
4. 2000 Service Plan. Toronto Transit Commission, Toronto, Ontario, Canada, 1999.
5. Service Improvements for 2000–2001. Toronto Transit Commission, Toronto, Ontario, Canada, 2000.
6. Levinson D. and Karamalaputi R. Predicting Network Expansion. Presented at 81st Annual Meeting of the Transportation Research Board, Washington, D.C., 2002.
7. Peng Z.-R. Dueker K. J. Strathman J. and Hopper J. A Simultaneous Route-Level Transit Patronage Model: Demand, Supply, and Inter-Route Relationship. Transportation, Vol. 24, No. 2 1997, pp. 159–181.
8. Discover Mississauga. www.mississauga.ca/portal/discover/aboutmississauga. Accessed May 20, 2005.
9. Joint Program in Transportation, University of Toronto, Data Management Group. www.jpint.utoronto.ca/dmg/. Accessed December 15, 2005.
10. Chowdhury M. S. U. Optimal Bus Service Design in Competitive Contracting. MASc thesis. University of Toronto, Toronto, Ontario, Canada, 2005.
11. University of Toronto. Canadian Census Analyser. http://dc1.chass.utoronto.ca/census/index.html. Accessed December 15, 2005.
12. Jennrich R. I. An Introduction to Computational Statistics—Regression Analysis. Prentice Hall, Englewood Cliffs, N.J., 1995.
13. Hayter A. J. Probability and Statistics for Engineers and Scientists. PWS Publishing Company, Boston, Mass., 1996.
14. Johnston J. Econometric Methods, 3rd ed. McGraw-Hill, New York, 1984.
15. Greene W. Econometric Analysis, 5th ed. Prentice Hall, Upper Saddle River, N.J., 2003.
16. Greene W. LIMDEP, Version 7.0, User's Manual, Revised Edition. Econometric Software, Inc., Bellport, N.Y., 1998.
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Article first published: January 2006
Issue published: January 2006
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This article was published in Transportation Research Record: Journal of the Transportation Research Board.
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