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Accelerating Discoveries in Traffic Science

Accelerating Discoveries in Traffic Science

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PUBLISHED
06.11.2017
DOI
https://doi.org/10.7307/ptt.v29i5.2306
ISSUE
2017 (Vol 29), Issue 5
LICENSE
Copyright (c) 2024 Vatsal Singhania, Marin Marinov
Creative Commons 4.0 logo
This work is licensed under a
Creative Commons Attribution-NonCommercial-
NoDerivatives 4.0 International License.

An Event-based Simulation Model for Analysing the Utilization Levels of a Railway Line in Urban Area

Authors:

Vatsal Singhania
Mechanical and Systems Engineering School, Newcastle University, Stephenson Building, Newcastle upon Tyne, Ne1 7RU

Marin Marinov
Newcastle University

Keywords:rail line, rail freight, passenger trains, freight trains, urban area, simulation, utilisation,

Abstract

This paper offers a simulation model for analysing the utilization levels of a section of a railway line between Edinburgh Waverley and Glasgow Queen Street. Specifically, a segment of this line situated in the urban area of Edinburgh has been simulated using SIMUL8 to study the impacts of further inclusion of freight trains on the scheduled passenger trains. The utilisation levels of this segment have been observed in three scenarios: utilisation existing state where all scheduled passenger trains and a few freight trains are observed; utilisation in future state where more freight trains are input in available time gaps running at their actual speed; and utilisation future state where freight trains are input in available time gaps running at speed equivalent to a passenger train. A decomposition approach is implemented. The results suggest that extra freight trains can be input into the current timetables without impeding the current scenario, allowing a reasonable increase in utilisation of the rail line.

References

  1. NetworkRail. Value and Importance of Rail Freight. Kings Place, 90 York Way, London N1 9AG; April 2013.

    Burdett, Robert L. Optimisation Models for Expanding a Railway's Theoretical Capacity. European Journal of Operational Research. 2016;3(251): 783-797.

    Jensen LW, Landex A, Nielsen OA, Kroon LG, Schmidt M. Strategic Assessment of Capacity Consumption in Railway Networks: Framework and model. Transportation Research Part C: Emerging Technologies. 2017;74: 126-149.

    Malavasi G, Molková T, Ricci S, Rotoli F. A Synthetic Approach to the Evaluation of the Carrying Capacity of Complex Railway Nodes. Journal of Rail Transport Planning & Management. 2014;1(4): 28-42.

    Meirich C, Nießen N. Calculating the Maximal Number of Additional Freight Trains in a Railway Network. Journal of Rail Transport Planning & Management. 2016;6(3): 200-217.

    Dessouky M, Leachman R. A Simulation Modeling Methodology for Analyzing Large Complex Rail Networks. Simulation. 1995;65(2):131-142.

    Marinov M,

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How to Cite
Singhania, V. (et al.) 2017. An Event-based Simulation Model for Analysing the Utilization Levels of a Railway Line in Urban Area. Traffic&Transportation Journal. 29, 5 (Nov. 2017), 521-528. DOI: https://doi.org/10.7307/ptt.v29i5.2306.

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