Heavy-traffic limit for a feed-forward fluid model with heterogeneous heavy-tailed On/Off sources

Rosario Delgado

doi:10.1007/s11134-012-9320-z

Heavy-traffic limit for a feed-forward fluid model with heterogeneous heavy-tailed On/Off sources

Rosario Delgado^*

^*Corresponding author for this work

Department of Mathematics

Research output: Contribution to journal › Article › Research › peer-review

3 Citations (Scopus)

Abstract

We consider a multi-station fluid model with arrivals generated by a large number of non-homogeneous heavy-tailed On/Off sources. If the model is feed-forward in the sense that fluid cannot flow from one station to other with lighter tail distributions, we prove that under heavy-traffic, the scaled workload converges in distribution to a reflected fractional Brownian motion process with a multi-dimensional Hurst parameter. As an application, we analyze the impact of having independent streams with variable parameters in high-speed telecommunication networks, on the asymptotic behavior of the maximum queue length.

Original language	English
Pages (from-to)	41-63
Number of pages	23
Journal	Queueing Systems
Volume	74
Issue number	1
DOIs	https://doi.org/10.1007/s11134-012-9320-z
Publication status	Published - May 2013

Keywords

Fluid model
Heavy tails
Heavy traffic
Heterogeneous On/Off sources
Maximum queue length
Reflected fractional Brownian motion
Skorokhod problem
Workload process

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10.1007/s11134-012-9320-z

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title = "Heavy-traffic limit for a feed-forward fluid model with heterogeneous heavy-tailed On/Off sources",

abstract = "We consider a multi-station fluid model with arrivals generated by a large number of non-homogeneous heavy-tailed On/Off sources. If the model is feed-forward in the sense that fluid cannot flow from one station to other with lighter tail distributions, we prove that under heavy-traffic, the scaled workload converges in distribution to a reflected fractional Brownian motion process with a multi-dimensional Hurst parameter. As an application, we analyze the impact of having independent streams with variable parameters in high-speed telecommunication networks, on the asymptotic behavior of the maximum queue length.",

keywords = "Fluid model, Heavy tails, Heavy traffic, Heterogeneous On/Off sources, Maximum queue length, Reflected fractional Brownian motion, Skorokhod problem, Workload process",

author = "Rosario Delgado",

note = "Funding Information: Acknowledgements The author wishes to thank the anonymous referees for careful reading and very helpful comments that resulted in an overall improvement of the paper. R. Delgado was supported by Ministerio de Educaci{\'o}n y Ciencia de Espa{\~n}a and FEDER, project ref. MTM2009-08869. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

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N2 - We consider a multi-station fluid model with arrivals generated by a large number of non-homogeneous heavy-tailed On/Off sources. If the model is feed-forward in the sense that fluid cannot flow from one station to other with lighter tail distributions, we prove that under heavy-traffic, the scaled workload converges in distribution to a reflected fractional Brownian motion process with a multi-dimensional Hurst parameter. As an application, we analyze the impact of having independent streams with variable parameters in high-speed telecommunication networks, on the asymptotic behavior of the maximum queue length.

AB - We consider a multi-station fluid model with arrivals generated by a large number of non-homogeneous heavy-tailed On/Off sources. If the model is feed-forward in the sense that fluid cannot flow from one station to other with lighter tail distributions, we prove that under heavy-traffic, the scaled workload converges in distribution to a reflected fractional Brownian motion process with a multi-dimensional Hurst parameter. As an application, we analyze the impact of having independent streams with variable parameters in high-speed telecommunication networks, on the asymptotic behavior of the maximum queue length.

KW - Fluid model

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KW - Maximum queue length

KW - Reflected fractional Brownian motion

KW - Skorokhod problem

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Heavy-traffic limit for a feed-forward fluid model with heterogeneous heavy-tailed On/Off sources

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Keywords

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