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A packet-switched network with On/Off sources and a fair bandwidth sharing policy: state space collapse and heavy-traffic

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  • Rosario Delgado

    (Universitat Autònoma de Barcelona)

Abstract

We consider a flow-level model for packet-switched telecommunications networks handling elastic flows with concurrent occupancy of resources, in which digital objects are transferred at a rate determined by capacity allocation on each route. The capacity of each node is dynamically allocated to the routes passing by it through a weighted proportional fair sharing policy, and the arrival request for transfer on each route is generated by N heavy-tailed On/Off sources. Under heavy-traffic, we combine state space collapse (SSC) and an Invariance Principle to show that when $$N\rightarrow +\infty $$ N → + ∞ the conveniently scaled workload and flow count processes converge. SSC establishes a relationship between the corresponding limits by means of a deterministic operator. In Theorem 1 we prove that assuming the other hypotheses hold, SSC is not only sufficient for the convergence, but necessary. In Theorem 2 we prove that when $$r\rightarrow +\infty $$ r → + ∞ , r being a scale parameter, the workload limit process converges to a reflected fractional Brownian motion on a polyhedral cone.

Suggested Citation

  • Rosario Delgado, 2016. "A packet-switched network with On/Off sources and a fair bandwidth sharing policy: state space collapse and heavy-traffic," Telecommunication Systems: Modelling, Analysis, Design and Management, Springer, vol. 62(2), pages 461-479, June.
    • Handle: RePEc:spr:telsys:v:62:y:2016:i:2:d:10.1007_s11235-015-0086-6
    DOI: 10.1007/s11235-015-0086-6
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    References listed on IDEAS

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    1. Ohad Perry & Ward Whitt, 2013. "A Fluid Limit for an Overloaded X Model via a Stochastic Averaging Principle," Mathematics of Operations Research, INFORMS, vol. 38(2), pages 294-349, May.
    2. Delgado, Rosario, 2007. "A reflected fBm limit for fluid models with ON/OFF sources under heavy traffic," Stochastic Processes and their Applications, Elsevier, vol. 117(2), pages 188-201, February.
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