Allocation of Buses on Interdependent Regional Bus Transit Routes
Publication: Journal of Transportation Engineering
Volume 127, Issue 3
Abstract
In this paper, a two-stage heuristic approach is presented for the allocation of buses to regional transit bus routes. In the first stage, bus frequencies required to handle peak link demand on each route are worked out. Overcrowding of buses to a certain level is considered in the computation of base frequencies. If additional fleet are available, surplus frequencies will be allocated in the second stage minimizing the degree of overcrowding in the network. Passenger discomfort due to overcrowding has been formulated as a nonlinear objective function. Genetic algorithms have been used to solve the problem of allocation of surplus fleet. Overlapping of routes, which is a common feature in many regional transit networks in India, has been considered in this model. Frequencies are set considering a maximum of one transfer. The model has been demonstrated with the help of a case study of a regional transit network in India.
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References
1.
Baaj, M. H., and Mahmassani, H. S. ( 1992). “Artificial intelligence-based system representation and search procedures for transit route network design.” Transp. Res. Rec. 1358, Transportation Research Board, Washington, D.C., 67–70.
2.
Carraresi, P., Malucelli, F., and Pallottino, S. ( 1996). “Regional mass transit assignment with resource constraints.” Transp. Res., U.K., 30B(2), 81–98.
3.
Chriqui, C., and Robillard, P. ( 1975). “Common bus lines.” Transp. Sci., 9, 115–121.
4.
De Cea, J., Bunster, J. P., Zubieta, L., and Florian, M. ( 1988). “Optimal strategies and optimal routes in public transit assignment models: An empirical comparison.” Traffic Engrg. and Control, London, 29, 520–526.
5.
Dubois, D., Bel, G., and Llibre, M. ( 1979). “A set of methods in transportation network synthesis and analysis.” J. Operational Res. Soc., U.K., 30, 797–808.
6.
Furth, P. G., and Wilson, N. H. M. ( 1981). “Setting frequencies on bus routes: Theory and practice.” Transp. Res. Rec. 818, Transportation Research Board, Washington, D.C., 1–7.
7.
Han, A. F., and Wilson, N. H. M. ( 1982). “The allocation of buses in heavily utilized networks with overlapping routes.” Transp. Res., U.K., 16B(3), 221–231.
8.
Hasselström, D. ( 1981). “Public transportation planning: A mathematical programming approach.” PhD thesis, Dept. of Business Admin., University of Gothenburg, Gothenburg, Sweden.
9.
Jansson, K., and Ridderstolpe, B. ( 1992). “A method for the route choice problem in public transport systems.” Transp. Sci., 26, 246–251.
10.
Lampkin, W., and Saalmans, P. D. ( 1967). “The design of routes, service frequencies, and schedules for a municipal bus undertaking: A case study.” Operational Res. Quarterly, U.K., 18, 375–397.
11.
Mandl, C. ( 1980). “Evaluation and optimization of urban public transportation networks.” Eur. J. Operational Res., 5, 396–404.
12.
Marguier, P. H. J., and Ceder, A. ( 1984). “Passenger waiting strategies for overlapping bus routes.” Transp. Sci., 18(3), 207–230.
13.
Marwah, B. R., Umrigar, F. S., and Patnaik, S. B. ( 1984). “Optimal design of bus routes and frequencies for Ahmedabad.” Transp. Res. Rec. 994, Transportation Research Board, Washington, D. C., 41–47.
14.
Newell, G. F. ( 1982). Application of queuing theory, Chapman & Hall, London.
15.
Pattnaik, S. B., Mohan, S., and Tom, V. M. (1998). “Urban bus transit route network design using genetic algorithm.”J. Transp. Engrg., ASCE, 124(4), 368–375.
16.
Ramachandra Rao, K. ( 1998). “A methodology for regional bus transit network planning.” PhD thesis, Dept. of Civ. Engrg., Indian Institute of Technology, Kharagpur, India.
17.
Schéele, S. ( 1980). “A supply model for public transit services.” Transp. Res., U.K., 14B(1), 133–146.
18.
Silman, L. A., Barzily, Z., and Passy, U. ( 1974). “Planning the route system for urban buses.” Comp. and Operations Res., U.K., 1, 201–211.
19.
Spiess, H., and Florian, M. ( 1989). “Optimal strategies: A new assignment model for transit networks.” Transp. Res., U.K., 23B, 83–102.
20.
Van Nes, R., Hamerslag, R., and Immers, B. H. ( 1988). “Design of public transport networks.” Transp. Res. Rec. 1202, Transportation Research Board, Washington, D.C., 74–83.
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Received: Feb 12, 1999
Published online: Jun 1, 2001
Published in print: Jun 2001
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