Evaluation of Actual Timetables and Utilization Levels of West Midlands Metro Using Event-Based Simulations

Praful Potti; Marin Marinov

doi:10.1007/s40864-019-00120-4

Urban Rail Transit ›› 2020, Vol. 6 ›› Issue (1) : 28 -41. DOI: 10.1007/s40864-019-00120-4

Original Research Papers

Evaluation of Actual Timetables and Utilization Levels of West Midlands Metro Using Event-Based Simulations

Praful Potti ¹
, Marin Marinov ¹^,^b

Author information +

History +

PDF

Abstract

The performance of the West Midlands Metro in the United Kingdom is analyzed in the present study by evaluating the existing timetables of the metro system. Using SIMUL8 computer software, a discrete event-based simulation prototype modeling the metro system is developed and implemented. The model adequately describes the performance of the West Midlands Metro system. By running simulations, the overall utilization level of the metro system is calculated. The results of the simulation model indicate that the metro system is being underutilized. The low utilization rates indicate a potential for the introduction of new services capable of exploiting the existing infrastructure and improving the utilization levels of the existing metro system; For example, the potential of using the current metro system for urban freight transport could be a new service of interest and provide scope for further research.

Keywords

Metro / Rail / Timetable / Metro system performance / Utilization levels / Simulation / Modeling / SIMUL8 / Urban freight

Cite this article

Download citation ▾

Praful Potti, Marin Marinov. Evaluation of Actual Timetables and Utilization Levels of West Midlands Metro Using Event-Based Simulations. Urban Rail Transit, 2020, 6(1): 28-41 DOI:10.1007/s40864-019-00120-4

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	West Midlands Combined Authority (2017) https://www.wmca.org.uk/news/national-survey-sees-satisfaction-soar-on-midland-metro-as-passenger-numbers-near-8m/. Accessed 12 June 19

[2]	Transport for West Midlands, Midland Metro passenger numbers set to top seven million (2017) https://www.tfwm.org.uk/news/midland-metro-passenger-numbers-set-to-top-seven-million/. Accessed 14 June 19

[3]	Schittenhelm BH (2014) Quantitative methods for assessment of railway timetables. Ph.D. thesis, DTU, annual report year. http://orbit.dtu.dk/en/publications/quantitative-methods-for-assessment-of-railway-timetables(0407117c-d4d0-43b8-a95d-da5991ef6dff).html. Accessed 10 May 19

[4]	Marinov M, Mortimer P, Zunder T, Islam D. A steady state analysis for yard performances. J Transp Lit, 2011, 5(1): 33-49.

[5]	Feng J, Yu D, Ni SQ. An objective train timetabling quality evaluation method. Math Probl Eng, 2017, 2017

[6]	Salido MA, Barber F, Ingolotti L. Robustness for a single railway line: analytical and simulation methods. Expert Syst Appl, 2012, 39: 13305-13327

[7]	Sels P, Cattrysse D, Vansteenwegen P. Practical macroscopic evaluation and comparison of railway timetables. Transp Res Procedia, 2015, 10: 625-633

[8]	Goverede RMP, Hensen IA (2013) Performance indicators for railway timetables. In: IEEE ICIRT

[9]	Huang H, Li K, Wang Y. A simulation method for analysing and evaluating rail system performance based on speed profile. Syst Sci Syst Eng, 2018, 27(6): 810-834

[10]	Warg J, Bohlin M. The use of railway simulation as an input to economic assessment of timetables. J Rail Transp Plan Manag, 2016, 6(3): 225-270.

[11]	Solinen E, Nicholson G, Peterson A. A microscopic evaluation of railway timetable robustness and critical points. J Rail Transp Plan Manag, 2017, 7: 207-223.

[12]	Marinov M, Giovanni LD, Bellisai G, Clevermann J, Mastellou A, Victoria D, Deleva L. Analysis of rail yard and terminal performances. J Transp Lit, 2012, 8: 2

[13]	Grube P, Nunez F, Cipriano A. An event driven simulator multiline metro system and its application to Santiago de Chile metropolitan rail network. Simul Model Pract Theory, 2010, 19(1): 393-405

[14]	Mortaghi A, Marinov M. Analysis of urban freight by rail using event-based simulation. Simul Model Pract Theory, 2012, 25: 73-89

[15]	Tan W, Chai Y, Liu Y. A message-driving formalism for modeling and simulation of multi-agent supply chain systems. J Syst Sci Syst Eng, 2011, 20(4): 385-399

[16]	Wales J, Marinov M. Analysis of delays and delay mitigation on a metropolitan railway network using event-based simulation. Simul Model Pract Theory, 2015, 52: 55-57

[17]	Singhania V, Marinov M. An event-based simulation model for analysing the utilization levels of a railway line in urban area. PROMET, 2016, 29(5): 521-528

[18]	Marinov M, Viegas J. A mesoscopic simulation modelling methodology for analysing and evaluating freight train operations in a rail network. Simul Model Pract Theory, 2011, 19: 516-539

[19]	Marinov M, Viegas JM. Tactical management of rail freight transportation services: evaluation of yard performance. Transp Plan Technol, 2012, 34(4): 363-387

[20]	Potti P, Marinov M, Sweeney E. A simulation study on the potential of moving urban freight by a cross-city railway line. Sustainability, 2019, 11(21): 6088

[21]	Woroniuk C, Marinov M. Simulation modelling to analyze the current level of utilization of sections along a rail route. J Transp Lit, 2012, 7(2): 235-252

[22]	Marinov M, Giubilei F, Gerhardt M, Ozkan T, Stergiou E, Papadopol M, Cabecinha L. Urban freight movement by rail. J Transp Lit, 2013, 7(3): 87-116