• DocumentCode
    1945874
  • Title

    Timely data delivery in a realistic bus network

  • Author

    Acer, Utku ; Giaccone, Paolo ; Hay, David ; Neglia, Giovanni ; Tarapiah, Saed

  • Author_Institution
    Bell Labs., Antwerp, Belgium
  • fYear
    2011
  • fDate
    10-15 April 2011
  • Firstpage
    446
  • Lastpage
    450
  • Abstract
    WiFi-enabled buses and stops may form the backbone of a metropolitan delay tolerant network, that exploits nearby communications, temporary storage at stops, and predictable bus mobility to deliver non-real time information. This paper studies the problem of how to route data from its source to its destination in order to maximize the delivery probability by a given deadline. We assume to know the bus schedule, but we take into account that randomness, due to road traffic conditions or passengers boarding and alighting, affects bus mobility. We propose a simple stochastic model for bus arrivals at stops, supported by a study of real-life traces collected in a large urban network. A succinct graph representation of this model allows us to devise an optimal (under our model) single-copy routing algorithm and then extend it to cases where several copies of the same data are permitted. Through an extensive simulation study, we compare the optimal routing algorithm with three other approaches: minimizing the expected traversal time over our graph, minimizing the number of hops a packet can travel, and a recently-proposed heuristic based on bus frequencies. Our optimal algorithm outperforms all of them, but most of the times it essentially reduces to minimizing the expected traversal time. For values of deadlines close to the expected delivery time, the multi-copy extension requires only 10 copies to reach almost the performance of the costly flooding approach.
  • Keywords
    graph theory; probability; road traffic; stochastic processes; telecommunication network routing; transportation; wireless LAN; WiFi-enabled buses; bus arrivals; bus frequency; bus schedule; costly flooding approach; delivery probability; delivery time; expected traversal time; large urban network; metropolitan delay tolerant network; multicopy extension; nonreal time information; optimal algorithm; optimal routing algorithm; passengers alighting; passengers boarding; predictable bus mobility; real-life traces; realistic bus network; recently-proposed heuristic; road traffic conditions; route data; single-copy routing algorithm; stochastic model; succinct graph representation; temporary storage; timely data delivery; Delay; Random variables; Routing; Schedules; Trajectory; Vehicles;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    INFOCOM, 2011 Proceedings IEEE
  • Conference_Location
    Shanghai
  • ISSN
    0743-166X
  • Print_ISBN
    978-1-4244-9919-9
  • Type

    conf

  • DOI
    10.1109/INFCOM.2011.5935201
  • Filename
    5935201