Share:


Modelling bus delay at bus stop

    Yueying Huo Affiliation
    ; Wenquan Li Affiliation
    ; Jinhua Zhao Affiliation
    ; Shoulin Zhu Affiliation

Abstract

A bus may be blocked from entering and exiting a stop by other buses and traffic lights. The objective of this paper is to model each type of delay under these phenomena and the overall delay a bus experiences at a stop. Occupy-based delay, transfer block-based delay and block-based delay are defined and modelled. Bus delay at stop is just the sum of these three types of delay. Bus arrival rate, bus service rate, berth number and traffic lights are taken into consideration when modelling delay. Occupy-based delay is modelled with mean waiting time in Queueing theory. Transfer block-based delay and block-based delay are modelled based on standard deviation of waiting time and the probabilities of their occurrences. Two stops in Vancouver, Canada are selected for parameter estimation and model validation. The unknown parameter is estimated as 0.4230 using Ordinary Least Squares (OLS), which indicates that 42.3% of waiting time variation can be attributed to buses being blocked by the buses in front and red light for the selected stops. Model validation shows the average accuracy rate of the proposed model is 75.07% for the selected stops. Bus delay at stop evidently increases when arrival rate is more than 85 buses per hour for the given service time (50 s), ratio of red time to cycle length (0.65) and berth number (2). We also figure out that bus delay at stop evidently increases when service time is more than 60 s for the given arrival rate (54 buses per hour), ratio of red time to cycle length (0.65) and berth number (2). The proposed model can provide a tool for bus stop design and offer the foundation for service quality evaluation of transit.


First published online 28 January 2015

Keyword : bus delay, bus stop, queueing theory, variation of waiting time, probability of block

How to Cite
Huo, Y., Li, W., Zhao, J., & Zhu, S. (2018). Modelling bus delay at bus stop. Transport, 33(1), 12-21. https://doi.org/10.3846/16484142.2014.1003324
Published in Issue
Jan 26, 2018
Abstract Views
1806
PDF Downloads
1504
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Adan, I.; Resing, J. 2002. Queueing Theory. Department of Mathematics and Computing Science, Eindhoven University of Technology, The Netherlands. 180 p. Available from Internet: http://www.win.tue.nl/~iadan/queueing.pdf

Chen, L. M. 1999. The Research on Level of Service and Service Volume of Bus Reserved Lands: MSc Thesis. Institute of Civil Engineering, National Taiwan University (in Chinese).

Furth, P. G.; Rahbee, A. B. 2000. Optimal bus stop spacing through dynamic programming and geographic modeling, Transportation Research Record 1731: 15–22. http://dx.doi.org/10.3141/1731-03

Furth, P. G.; SanClemente, J. L. 2006. Near side, far side, uphill, downhill: impact of bus stop location on bus delay, Transportation Research Record 1971: 66–73. http://dx.doi.org/10.3141/1971-10

Gu, W. H.; Cassidy, M. J.; Li, Y. W. 2014. Models of bus queueing at curbside stops, Transportation Science [in press]. http://dx.doi.org/10.1287/trsc.2014.0537

Han, B. R.; Lin, L.; Fan, X. 2004. Survey and analysis of bus delay in bus stop, Urban Transport of China 2(4): 68–71. (in Chinese).

Highway Capacity Manual. 2000. Transportation Research Board. 1134 p.

Jin, B. T. 2000. Probability and Statistic. China Higher Education Press. 283 p. (in Chinese).

Koshy, R. Z.; Arasan, V. T. 2005. Influence of bus stops on flow characteristics of mixed traffic, Journal of Transportation Engineering 131(8): 640–643. http://dx.doi.org/10.1061/(ASCE)0733-947X(2005)131:8(640)

Kuo, J.-L. 1999. The Research of Level of Service on Stops of Bus Reserved Lands in Taipei: MSc Thesis. Institute of Traffic and Transportation College of Management, National Chiao Tung University. (in Chinese).

Lu, L.; Su, Y. L.; Yao, D. Y.; Peng, L. H.; Ding, M.; Xu, R. M. 2010. The delay of bus near a stop when mixed traffic flow is considered, in Proceedings of the 2010 IEEE Intelligent Vehicles Symposium (IV), 21–24 June 2010, San Diego, CA, US, 1104–1109. http://dx.doi.org/10.1109/IVS.2010.5548131

Ma, H. W.; Li, G. Y.; Hu, J.; Yu, X. P. 2006. Analysis and measurements on delay at urban bus stop, Highway & Automotive Applications (6): 25–27. (in Chinese).

Medhi, J. 2002. Stochastic Models in Queueing Theory. 2nd edition. Academic Press. 450 p.

Menasce, D. A.; Almeida, V. A. F.; Dowdy, L. W. 2004. Performance by Design: Computer Capacity Planning By Example. Prentice Hall. 480 p.

Nagatani, T. 2001. Delay transition of a recurrent bus on a circular route, Physica A: Statistical Mechanics and its Applications 297(1–2): 260–268. http://dx.doi.org/10.1016/S0378-4371(01)00193-5

Shi, Q.; Liu, W.-N.; Huang, Z.-P. 2011. Research on bus delay based on cellular automaton model, Journal of Hefei University of Technology (Natural Science) 34(1): 10–13. (in Chinese).

Sundarapandian, V. 2009. Probability, Statistics and Queueing Theory. PHI Learning. 840 p.

TRB. 2003. TCRP Report 100: Transit Capacity and Quality of Service Manual. Transportation Research Board (TRB), Washington, DC, US. Available from Internet: http://www.trb.org/Main/Blurbs/153590.aspx

Wang, W. 1990. Road Traffic Engineering System Analysis Method. Southeast University Press. 243 p. (in Chinese).

Xu, P. X. 2001. The Research on Evaluation Method of Level of Service of Bus Reserved Lands: MSc Thesis. Institute of Civil Engineering, National Taiwan University (in Chinese).

Xu, W. X. 2004. Advanced Mathematics. China Higher Education Press. 303 p. (in Chinese).

Xu, Z.; Akpakli, V. K.; Yang, X.-K. 2009. A study on the bus delay model at bus stops, in ICCTP 2009: Critical Issues In Transportation Systems Planning, Development, and Management, 5–9 August 2009, Harbin, China, 1–10. http://dx.doi.org/10.1061/41064(358)430

Zhou, W.; Chen, X. W. 2002. Analysis of traffic delay at bus stop hubs and solutions, China Municipal Engineering (2): 9–11. (in Chinese).

Zhou, W.-D.; Ma, G.-Z.; Yang, J. 2008. Analysis of vehicle delay at bus stops, Urban Public Transport (12), 26–28. (in Chinese).