Admission Control and Drop strategies in a UPnP-QoS controlled home network

Suraci, Vincenzo; Oddi, Guido; Mattiacci, Nico; Angelucci, Andrea

doi:10.1109/pimrc.2010.5671830

Cited by 12 publications

(4 citation statements)

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“…This measure is also a small part of the eSPID algorithm, described for the QoSiLAN framework in Section 2.2. Suraci et al state that the UPnP-QoS architecture works well in the case of moderate traffic loads but may fail whenever the network becomes overloaded [30]. They demonstrate their admission control and drop solutions using test-bed evaluations.…”

Section: Layermentioning

confidence: 99%

Autonomous QoS Management and Policing in Unmanaged Local Area Networks

Köhnen

Überall

Rajarajan

et al. 2015

Journal of Computer Networks and Communications

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The high increase of bandwidth-intensive applications like high definition video streaming in home and small office environments leads to QoS challenges in hybrid wired/wireless local area networks. These networks are often not QoS aware and may contain bottlenecks in their topology. In addition, they often have a hybrid nature due to the used access technology consisting of, for example, Ethernet, wireless, and PowerLAN links. In this paper, we present the research work on a novel autonomous system for hybrid QoS in local area networks, called QoSiLAN, which does not rely on network infrastructure support but on host cooperation and works independently of the access technology. We present a new QoS Signalling Protocol, policing and admission control algorithms, and a new lightweight statistical bandwidth prediction algorithm for autonomous resource management in LANs. This new QoS framework enables link based, access-medium independent bandwidth management without network support. We provide evaluation results for the novel bandwidth prediction algorithm as well as for the QoSiLAN framework and its protocol, which highlight the features, robustness, and the effectiveness of the proposed system.

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Section: Layermentioning

confidence: 99%

Autonomous QoS Management and Policing in Unmanaged Local Area Networks

Köhnen

Überall

Rajarajan

et al. 2015

Journal of Computer Networks and Communications

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“…Oppositely, the IntServ architecture is a fine-grained approach, meaning that each flow could be handled separately, according to its specific QoS requirements (for instance bandwidth requirements). Several approaches were presented in literature either following the DiffServ concept ( [9]) or the IntServ concept ( [10], [11] [12], [13]) or both ( [14], [15]). …”

Section: Introductionmentioning

confidence: 99%

A QoE-aware dynamic bandwidth allocation algorithm based on game theory

Oddi

Pietrabissa

Priscoli

et al. 2015

2015 23rd Mediterranean Conference on Control and Automation (MED)

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Quality of Experience (QoE) is a wide concept including user perception, behavior and expectations as well as application and network performances. The Internet of the future should be able to increase the QoE offered to the users, also in relationship with their commercial profiles. This paper presents an innovative approach, based on game theory, which, according to the feedback of QoE, is able to dynamically assign the available bandwidth of a shared technology (e.g. a WLAN, a cell) to the running flows, in order to maximize the QoE of the users and to guarantee fairness. Moreover, flows could be prioritized, according to commercial profiles (e.g., flows for which users pay more must be served with higher quality). The proposed approach is independent of the way the feedback of QoE is computed (it could be given by a direct user quality expression, estimated from the QoS measurements, from the user's behavior, etc.): the only assumption is that the QoE is a non-decreasing continuous function of the bandwidth allocated to the application. Simulations, considering audio flows with different codecs for which the IQX hypothesis (i.e., exponential interdependency of QoE and QoS) holds, show high performances and fairness/prioritization properties

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“…For example, there is a way to block the traffic of non-essential services if its amount of bandwidth usage exceeds a certain value in order to watch video with certain quality [1]. This is a method for controlling the QoS of all services in the home gateway.…”

Section: Introductionmentioning

confidence: 99%

Proposal of new traffic control method in the next generation home network

Mochizuki

Shimazaki

Dai

et al. 2012

2012 35th International Conference on Telecommunications and Signal Processing (TSP)

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This paper proposes a new traffic control method to use both pacing and class base queuing (CBQ) methods in the next generation home network. Experimental setup and results are also described to verify the effectiveness of the proposed method. With the pacing and CBQ method applying to the simulated video streaming service in the hardware experiment, its quality of service (QoS) could be improved by reducing the frame loss in the video streaming service.

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Admission Control and Drop strategies in a UPnP-QoS controlled home network

Cited by 12 publications

References 0 publications

Autonomous QoS Management and Policing in Unmanaged Local Area Networks

Autonomous QoS Management and Policing in Unmanaged Local Area Networks

A QoE-aware dynamic bandwidth allocation algorithm based on game theory

Proposal of new traffic control method in the next generation home network

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