Impact of signalling system on capacity – Comparing legacy ATC, ETCS level 2 and ETCS hybrid level 3 systems

Abril, 2008, An assessment of railway capacity, Transport. Res. E Logist. Transport. Rev., 44, 774, 10.1016/j.tre.2007.04.001 Aoun, 2020, Investigating market potentials and operational scenarios of virtual coupling railway signaling, Transport. Res. Rec., 2674, 799, 10.1177/0361198120925074 Bloomfield, 2012, How secure is ERTMS?, vol. 7613 Borndörfer, 2018, vol. 268 Büker, 2019, Enhancement of Blocking-Time Theory to Represent Future Interlocking Architectures, 219 Cuppi, 2021, High density European Rail Traffic Management System (HD-ERTMS) for urban railway nodes: the case study of Rome, J. Rail Transport Plann. Manag., 17 Dicembre, 2011, Railway traffic on high density urban corridors: capacity, signalling and timetable, J. Rail Transport Plann. Manag., 1, 59, 10.1016/j.jrtpm.2011.11.001 2016 ERTMS Users Group, 2018, 51 2019, 1 2020, 1 Evans, 1996, The economics of automatic train protection in britain, Transport Pol., 3, 105, 10.1016/0967-070X(96)00015-7 2019 Furness, 2017, vol. 232, 1 Goverde, 2013, Railway line capacity consumption of different railway signalling systems under scheduled and disturbed conditions, J. Rail Transport Plann. Manag., 3, 78, 10.1016/j.jrtpm.2013.12.001 Havryliuk, 2017, An overview of the ETCS braking curves, Electromagn. Compatibil. Safety Railw. Transport, 11 Hennig, 2021, 44 2010 Jansen, 2019 Jensen, 2015, 226 Johansson, 2021 Koning, 2002, Comparing the performance of ERTMS level 2 fixed block and ERTMS level 3 moving block signalling systems using simulation techniques, Comput. Railw., VIII, 43 Kontaxi, 2009, Tecniche e metodologie per la determinazione della capacità ferroviaria: analisi comparata e prospettive d’integrazione, Ing. Ferrov., 64, 1051 Lai, 2015, Standardization of capacity unit for headway-based rail capacity analysis, Transport. Res. C Emerg. Technol., 57, 68, 10.1016/j.trc.2015.05.013 Landex, 2008, 201 Landex, 2019 Landex, 2008, Capacity measurement with the UIC 406 capacity method, WIT Trans. Built Environ., 103, 55, 10.2495/CR080061 Lindner, 2010 Markewicz, 2013, A rail model calibration methodology, 1 McNaughton, 2011 Pachl, 2002, 239 Pachl, 2020, 1 Pachl, 2004 Parbo, 2016, Passenger perspectives in railway timetabling: a literature review, Transport Rev., 36, 500, 10.1080/01441647.2015.1113574 Petersen, 1974, Over-the-Road transit time for a single track railway, Transport. Sci., 8, 65, 10.1287/trsc.8.1.65 Peterson, 2017 Ranjbar, 2020, Towards mobile and intelligent railway transport: a review of recent ERTMS related research, Comput. Railw. XVII, 1, 65, 10.2495/CR200061 Ranjbar, 2020, Key challenges of European rail traffic management system Sameni, 2012, Railway track capacity: measuring and managing, Proc. Int. Joint Conf. Biometrics. Stankaitis, 2017, A railway simulation suite for modelling advanced railway control systems, Int. J. Transport Develop. Integr., 1, 558, 10.2495/TDI-V1-N3-558-567 Sun, 2020 Trafikverket, 2014 Trafikverket, 2015 Trafikverket, 2015, BVH 544.30001 - ATC-systemprinciper, ATC-handbook, Innehållsförteckning., 1 Trafikverket, 2019 Trafikverket, 2019 2013, 56 2008 Wang, 2020, Evaluating line capacity with an analytical UIC code 406 compression method and blocking time stairway, Energies, 13, 1853, 10.3390/en13071853 Warg, 2016, The use of railway simulation as an input to economic assessment of timetables, J. Rail Transport Plann. Manag., 6, 255, 10.1016/j.jrtpm.2016.08.001