Performance analysis of wireless LANs: an integrated packet/flow level approach

Litjens, Remco; Roijers, Frank; Berg, van den Hans; Boucherie, Richard J.; Fleuren, Maria

doi:10.1016/s1388-3437(03)80242-1

Cited by 43 publications

(53 citation statements)

References 13 publications

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“…We present an analytical model of the 802.11 DCF that differs from previous work [1][2][3][4][5][6] in addressing all of the following issues: (i) it identifies the critical assumptions in the development of analytical models of 802.11 networks, and presents a fairly simple as well as accurate model of the DCF in presence of non-saturated traffic sources; (ii) it is general enough to account for different arrival processes and traffic patterns, in particular, it applies to the case of bursty traffic like that produced by the TCP protocol; (iii) it evaluates the system performance in a multirate environment; (iv) it applies to the case where a station seizing the channel is entitled to transmit a burst of packets, as specified in the IEEE 802.11e draft standard; (v) it evaluates several metrics of interest, such as the network throughput, the packet loss probability, the distribution of the MAC queue length at the wireless stations, and the average packet delay.…”

Section: Introductionmentioning

confidence: 99%

Performance Analysis of 802.11 WLANs Under Sporadic Traffic

Garetto

Chiasserini

2005

NETWORKING 2005. Networking Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile A

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Abstract. We analyze the performance of 802.11 WLANs that employ the Distributed Coordination Function (DCF). We consider contending stations within radio proximity, and investigate the case in which stations operate under nonsaturated conditions. Our modelling technique can be used to study several important issues in 802.11 networks, such as the impact of bursty traffic and the system performance in a multirate environment. The accuracy of the analytical results is verified by simulation with ns-2.

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Section: Introductionmentioning

confidence: 99%

Performance Analysis of 802.11 WLANs Under Sporadic Traffic

Garetto

Chiasserini

2005

NETWORKING 2005. Networking Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile A

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“…Modeling network performance using processor sharing (PS) based models [2,17,23] is applicable to a variety of communication networks, including CDMA 1xEV-DO, WLAN, and UMTS-HSDPA. In fact, PS models can actually model file transfers over WLANs accurately [11], hence taking into account the complex dynamics of the file transfer application and its underlying protocol-stack, including their interactions.…”

Section: Introductionmentioning

confidence: 99%

Optimal File Splitting for Wireless Networks with Concurrent Access

Hoekstra

Mei

Nazarathy

et al. 2009

Lecture Notes in Computer Science

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Abstract. The fundamental limits on channel capacity form a barrier to the sustained growth on the use of wireless networks. To cope with this, multi-path communication solutions provide a promising means to improve reliability and boost Quality of Service (QoS) in areas that are covered by a multitude of wireless access networks. Today, little is known about how to effectively exploit this potential. Motivated by this, we consider N parallel communication networks, each of which is modeled as a processor sharing (PS) queue that handles two types of traffic: foreground and background. We consider a foreground traffic stream of files, each of which is split into N fragments according to a fixed splitting rule (α1, . . . , αN ), where P αi = 1 and αi ≥ 0 is the fraction of the file that is directed to network i. Upon completion of transmission of all fragments of a file, it is re-assembled at the receiving end. The background streams use dedicated networks without being split. We study the sojourn time tail behavior of the foreground traffic. For the case of light foreground traffic and regularly varying foreground filesize distributions, we obtain a reduced-load approximation (RLA) for the sojourn times, similar to that of a single PS-queue. An important implication of the RLA is that the tail-optimal splitting rule is simply to choose αi proportional to ci − ρi, where ci is the capacity of network i and ρi is the load offered to network i by the corresponding background stream. This result provides a theoretical foundation for the effectiveness of such a simple splitting rule. Extensive simulations demonstrate that this simple rule indeed performs well, not only with respect to the tail asymptotics, but also with respect to the mean sojourn times. The simulations further support our conjecture that the same splitting rule is also tail-optimal for non-light foreground traffic. Finally, we observe near-insensitivity of the mean sojourn times with respect to the file-size distribution.

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“…For instance, the ps service discipline appropriately models the design principle of fair resource sharing by tcp controlled elastic data flows or packet level scheduling schemes in e.g. ip, gprs, umts and wireless local area networks (wlans) [1,2,21,22,24].…”

Section: Introductionmentioning

confidence: 99%

Throughputs in processor sharing models for integrated stream and elastic traffic

Litjens¹,

Berg

Boucherie

2008

Performance Evaluation

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We present an analytical study of throughput measures in processor sharing queueing systems with randomly varying service rates, modelling a communication link in an integrated services network carrying prioritised stream traffic and elastic traffic. A number of distinct throughput measures for the elastic traffic are defined and analysed. In particular, the differences between the various throughput measures and the impact of the elastic call size distribution are investigated. It is concluded that the call-average throughput, which is most relevant from the user point of view but typically hard to analyse, is very well approximated by the newly proposed so-called expected instantaneous throughput, which can easily be obtained from the system's steady state distribution.

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Performance analysis of wireless LANs: an integrated packet/flow level approach

Cited by 43 publications

References 13 publications

Performance Analysis of 802.11 WLANs Under Sporadic Traffic

Performance Analysis of 802.11 WLANs Under Sporadic Traffic

Optimal File Splitting for Wireless Networks with Concurrent Access

Throughputs in processor sharing models for integrated stream and elastic traffic

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