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Modeling Metropolis Public Transport

In: Traffic and Granular Flow ’07

Author

Listed:
  • Christian von Ferber

    (Coventry University, Applied Mathematics Research Centre
    Universität Freiburg, Physikalisches Institut)

  • Taras Holovatch

    (Ivan Franko National University of Lviv)

  • Yurij Holovatch

    (Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine
    Johannes Kepler Universität Linz, Institut für Theoretische Physik)

  • Vasyl Palchykov

    (Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine)

Abstract

Summary We present results of a survey of public transport networks (PTNs) of selected 14 major cities of the world with PTN sizes ranging between 2000 and 46000 stations and develop an evolutionary model of these networks. The structure of these PTNs is revealed in terms of a set of neighbourhood relations both for the routes and the stations. The networks defined in this way display distinguishing properties due to the constraints of the embedding 2D geographical space and the structure of the cities. In addition to the standard characteristics of complex networks like the number of nearest neighbours, mean path length, and clustering we observe features specific to PTNs. While other networks with real-world links like cables or neurons embedded in two or three dimensions often show similar behavior, these can be studied in detail in our present case. Geographical data for the routes reveal surprising self-avoiding walk properties that we relate to the optimization of surface coverage. We propose and simulate an evolutionary growth model based on effectively interacting self-avoiding walks that reproduces the key features of PTN.

Suggested Citation

  • Christian von Ferber & Taras Holovatch & Yurij Holovatch & Vasyl Palchykov, 2009. "Modeling Metropolis Public Transport," Springer Books, in: Cécile Appert-Rolland & François Chevoir & Philippe Gondret & Sylvain Lassarre & Jean-Patrick Lebacq (ed.), Traffic and Granular Flow ’07, pages 709-719, Springer.
    • Handle: RePEc:spr:sprchp:978-3-540-77074-9_80
    DOI: 10.1007/978-3-540-77074-9_80
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