R. Malhotra scite author profile

R. Malhotra

5Publications

66Citation Statements Received

47Citation Statements Given

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Chitkara University, University of Twente, SURF

Publications

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Modeling the interaction of IEEE 802.3x hop-by-hop flow control and TCP end-to-end flow control

Malhotra¹,

Haalen²,

Mandjes

et al.

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C e n t r u m v o o r W i s k u n d e e n I n f o r m a t i c a PNA Probability, Networks and Algorithms Probability, Networks and AlgorithmsModeling the interaction of IEEE 802.3x hop-by-hop flow control and TCP end-to-end flow control R. Malhotra, R. van Modeling the interaction of IEEE 802.3x hop-by-hop flow control and TCP end-to-end flow control ABSTRACT Ethernet is rapidly expanding beyond its niche of local area networks. However, its success in larger metropolitan area networks will be determined by its ability to combine simplicity, low costs and quality of service. A key element in successfully transporting bursty traffic and at the same time providing QoS, is congestion control. The Ethernet standard IEEE 802.3x defines a hop-by-hop congestion control mechanism. The performance of this scheme generally depends on its interaction with higher layer application traffic, and especially, with TCP controlled traffic which has its own end-to-end congestion control mechanism. In this paper we focus on the performance modeling and analysis of this interaction. Our model takes into account the influence of various network and traffic parameters. The validity of the proposed model is assessed by comparison of the results to simulations. In our experiments we observe that an increase of the round trip time has a positive influence on the interaction of hop-by-hop and TCP congestion control, and that the use of hop-by-hop flow control is only beneficial when the load is not high. Mathematics Subject Classification: 68M20, 60K25, 90B15, 90B18Keywords and Phrases: Ethernet IEEE 802.3x; metropolitan area networks; TCP; combined hop-by-hop and end-to-end traffic control Note: M. Mandjes and R. Núñez-Queija are part of PNA2. This work has been carried out in the context of the project End-to-end Quality of Service in Next Generation Networks (EQUANET), which is supported by the Dutch ministry of Economic affairs via its agency SenterNovem. This work was done while M. Mandjes was also affiliated with the University of Twente. R. Núñez-Queija is also affiliated with Eindhoven University of Technology. Abstract-Ethernet is rapidly expanding beyond its niche of local area networks. However, its success in larger metropolitan area networks will be determined by its ability to combine simplicity, low costs and quality of service. A key element in successfully transporting bursty traffic and at the same time providing QoS, is congestion control. The Ethernet standard IEEE 802.3x defines a hop-by-hop congestion control mechanism. The performance of this scheme generally depends on its interaction with higher layer application traffic, and especially, with TCP controlled traffic which has its own end-to-end congestion control mechanism. In this paper we focus on the performance modeling and analysis of this interaction. Our model takes into account the influence of various network and traffic parameters. The validity of the proposed model is assessed by comparison of the results to simulations. In our experiments we observe t...

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A feedback fluid queue with two congestion control thresholds

et al. 2008

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Flow level performance approximations for elastic traffic integrated with prioritized stream traffic

Malhotra¹,

Berg

2006

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Improving TCP performance with bufferless token bucket policing: A TCP friendly policer

Haalen¹,

Malhotra²

2007

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Design issues of a back-pressure-based congestion control mechanism

Malhotra

Mandjes

Scheinhardt

et al. 2010

AEU - International Journal of Electronics and Communications

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R. Malhotra

Modeling the interaction of IEEE 802.3x hop-by-hop flow control and TCP end-to-end flow control

A feedback fluid queue with two congestion control thresholds

Flow level performance approximations for elastic traffic integrated with prioritized stream traffic

Improving TCP performance with bufferless token bucket policing: A TCP friendly policer

Design issues of a back-pressure-based congestion control mechanism

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