75 research outputs found

    Advanced Wireless LAN

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    The past two decades have witnessed starling advances in wireless LAN technologies that were stimulated by its increasing popularity in the home due to ease of installation, and in commercial complexes offering wireless access to their customers. This book presents some of the latest development status of wireless LAN, covering the topics on physical layer, MAC layer, QoS and systems. It provides an opportunity for both practitioners and researchers to explore the problems that arise in the rapidly developed technologies in wireless LAN

    Quality of Service Provisioning for Voice Application over Wlans

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    RĂ©sumĂ© Aujourd'hui, les rĂ©seaux locaux sans fils WLANs (en anglais Wireless Local Area Networks) sont de plus en plus dĂ©ployĂ©s en raison de leur facilitĂ© d'installation et de leur faible coĂ»ts. Le standard IEEE (en anglais Institute of Electrical and Electronics Engineers) 802.11 dĂ©finit les caractĂ©ristiques des rĂ©seaux locaux sans fil WLANs. Alors que la premiĂšre norme proposĂ©e pouvait soutenir un dĂ©bit de donnĂ©es jusqu'Ă  2 Mbps, dans les versions rĂ©centes de la norme 802.11, des dĂ©bits de donnĂ©es pouvant atteindre jusqu'Ă  200 Mbps seront pris en charge dans les rĂ©seaux sans fil de prochaine gĂ©nĂ©ration. Garantir les besoins de QoS (en anglais Quality of Service) est un dĂ©fi considĂ©rable pour les rĂ©seaux WLAN, en particulier pour les applications multimĂ©dia. Vu que largeur de bande disponible dans les rĂ©seaux sans fil est limitĂ©e, la bande passante supportant la QoS ne peut ĂȘtre facilement augmentĂ©e. Cependant, les protocoles efficaces capables de satisfaire la qualitĂ© de service doivent ĂȘtre conçus pour amĂ©liorer l'utilisation des ressources dans les rĂ©seaux. Le protocole de la couche MAC (en anglais Medium Access Control) affecte fondamentalement les paramĂštres QoS. Le contrĂŽle d'admission est Ă©galement un Ă©lĂ©ment essentiel pour la qualitĂ© de service dans les rĂ©seaux locaux sans fil. Ca projet a pour objectif de modĂ©liser et analyser la couche MAC et contrĂŽler l'admission dans des rĂ©seaux locaux sans fil 802.11 avec infrastructure basĂ©e sur le mĂ©canisme DCF (en anglais Distributed Coordination Function). Bien que notre objectif gĂ©nĂ©ral est de garantir les besoins de QoS des applications multimĂ©dias sur les rĂ©seaux sans fil, nous avons rĂ©pondu Ă  plusieurs questions importantes telles que la modĂ©lisation de la couche MAC, l'Ă©valuation de la QoS et le contrĂŽle d'admission. La premiĂšre contribution de cette recherche est de proposer un cadre analytique qui prend en compte la direction du trafic en mode infrastructure non saturĂ©. Contrairement aux recherches antĂ©rieures, dans l'analyse proposĂ©e la probabilitĂ© de collision d'un paquet transmis par chaque station sans fil en liaison ascendante est diffĂ©rente de la probabilitĂ© de collision pour les paquets qui sont transmis Ă  partir du point d'accĂšs en liaison descendante. Ce modĂšle de distinction entre les modĂšles backoff par station en liaison ascendante et en liaison descendante est capable d'exprimer la performance MAC en termes de nombre de stations sans fil et plusieurs paramĂštres systĂšme tels que la taille de la fenĂȘtre de contention, le nombre maximum d'Ă©tapes backoff, la taille du tampon Ă  la couche MAC, ainsi que les paramĂštres de trafic tels que les durĂ©es de conversation, le silence et le taux d'arrivĂ©e. Contrairement aux Ă©tudes prĂ©cĂ©dentes, nous appliquons deux groupes d'Ă©quations, un groupe est dĂ©fini pour la station sans fil et l'autre pour le point d'accĂšs. ----------Abstract Wireless Local Area Networks (WLANs) are widely deployed nowadays because of their low cost and convenient implementation. The Institute of Electrical and Electronics Engineers (IEEE) 802.11 series standards define the specifications for such networks. While the first proposed standard could support a data rate up to 2 Mbps, in the recent upgraded versions of the standard data rates up to 54 Mbps are achievable and up to 200 Mbps are said to be supported in next generation WLANs. An important concern in WLANs is the support of Quality of Service (QoS), specifically for multimedia applications. Because of the limited available bandwidth in wireless networks, bandwidth cannot be easily increased to support QoS. However, efficient protocols capable of providing QoS have to be designed to improve resource utilization in networks. The Medium Access Control (MAC) protocol crucially affects the QoS parameters. Admission control is also an essential element for QoS provisioning in WLANs. Our research covers mathematical modeling and analysis of the MAC layer and admission control considering Distributed Coordination Function (DCF) in infrastructure mode of IEEE 802.11-based WLANs. While our general goal is to guarantee the QoS parameters of multimedia applications over WLANs, we address several important issues such as MAC layer modeling, QoS evaluation and admission control. The first contribution of this research is to propose an analytical framework which takes into account the traffic direction in non-saturated infrastructure mode of WLANs. Unlike previous work, in the proposed analysis the collision probability of a packet transmitted by each wireless station in the uplink direction is different from the probability of collision for the packets transmitted from the access point in the downlink direction. Our model differentiates between per-station backoff models in the uplink and downlink and is capable of expressing the MAC performance in terms of several system parameters such as contention window size, maximum number of backoff stages, size of buffer at the MAC layer, traffic parameters such as talk and silent durations and arrival rate, as well as the number of wireless stations. In contrast to the previous studies, we apply two groups of equations, one group is defined for the wireless station and the other one for the access point. These equations represent the transmission probability, probability of collision and the probability of being in the busy state in terms of the number of wireless stations, the traffic arrival rate and system parameters such as the size of the contention window and maximum number of retransmissions

    Support of resource-aware vertical handovers in WLAN hotspots

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    EndgerĂ€te wie Smartphones oder Tablets bieten hĂ€ufig eine Vielfalt drahtloser ZugĂ€nge zum Internet an. Üblicherweise schließt dies die 802.11 WLANs und auch Technologien drahtloser Weitverkehrsnetze (WWANs) aus dem Bereich LTE oder WiMAX ein. Aufgrund dieser Optionen haben sich die Endanwender daran gewöhnt, ĂŒberall und zu jeder Zeit auf ihre Internetdienste zuzugreifen. Damit hat auch der Datenverkehr pro Anwender zugenommen, was eine Herausforderung insbesondere fĂŒr die Betreiber von WWANs ist. Soweit verfĂŒgbar, favorisieren Endanwender heutzutage eher einen drahtlosen Zugang zum Internet ĂŒber WLANs als ĂŒber WWANs. Des Weiteren haben die 3GPP-Standardisierungsgremien AnsĂ€tze erarbeitet, die zusĂ€tzlich Verkehr aus WWANs in Netze mit geringerer Abdeckung wie WLAN- oder Femto-Zellen abgeben. Solche AnsĂ€tze werden auch als "Traffic Offloading" bezeichnet und haben das Ziel, die WWANs zu entlasten. Dabei werden jedoch eher einfache Strategien verfolgt, die auf der Nutzung zusĂ€tzlicher KapazitĂ€ten heterogener Netze beruhen und dann angewendet werden, wenn ein alternatives Zugangsnetz fĂŒr ein EndgerĂ€t verfĂŒgbar ist. Im Rahmen dieser Arbeit zeigen wir Gewinne auf, die entstehen, wenn man die Auswahl der EndgerĂ€te fĂŒr ein WLAN-Netz stattdessen auf Basis der von ihnen belegten Ressourcen durchfĂŒhrt. In diesem Kontext schlagen wir vor, GerĂ€te mit stark negativem Einfluss auf die WLAN-KapazitĂ€t wieder zurĂŒck in das WWAN zu reichen, was wir als "Onloading" bezeichnen. Ein solches "Onloading" zieht Herausforderungen in unterschiedlichen Richtungen mit sich. Die fortschreitende Miniaturisierung hat in den letzten Jahren zu dem Trend gefĂŒhrt, die Anzahl der Netzwerkkarten (NICs) in EndgerĂ€ten zu reduzieren. Wir bezeichnen eine NIC als multimodal, wenn sie mehrere Funktechnologien unterstĂŒtzt, aber zu einem bestimmten Zeitpunkt immer nur eine davon genutzt werden kann. Deswegen stellt fĂŒr eine multimodale NIC das "Onloading" wĂ€hrend einer laufenden Verbindung eine Herausforderung dar. Wir schlagen einen Ansatz vor, der vorbereitende Mechanismen fĂŒr ein "Onloading" als auch eine laufende Verbindung im WLAN ĂŒber eine solche NIC ermöglicht. Des Weiteren ist es wichtig, in einem WLAN Hotspot zu entscheiden, welche GerĂ€te einen negativen Einfluss auf die KapazitĂ€t des Netzes haben. DafĂŒr haben wir eine Metrik entwickelt, die eine Entscheidungsgrundlage fĂŒr das Onloading bildet. Diese Metrik basiert rein auf einer Beobachtung des Netzes und seiner GerĂ€te, ermöglicht jedoch keine Entscheidung fĂŒr sich neu assoziierende GerĂ€te im WLAN. Erschwerend kommt hinzu, dass viele Eigenschaften der NICs durch herstellerabhĂ€ngige Implementierungen geprĂ€gt werden. Solche Algorithmen bieten eine zusĂ€tzliche Herausforderung, da ihre internen AblĂ€ufe ĂŒblicherweise unbekannt sind. Ein bekanntes Beispiel fĂŒr solche Algorithmen stellt die Anpassung der WLAN-Link-Datenraten dar. Diese Algorithmen wĂ€hlen die jeweiligen Modulations- und Kodierungsschemata (MCSs) fĂŒr die drahtlosen Übertragungen aus. Robuste MCSs resultieren dabei in geringere Link-Datenraten und haben somit einen starken Einfluss auf die KapazitĂ€t einer WLAN-Zelle. Aus diesem Grund fokussieren wir uns auf eine AbschĂ€tzung der Datenratenwahl eines EndgerĂ€tes. Damit lassen sich im Vorfeld Aussagen treffen, ob ein GerĂ€t starken Einfluss auf die WLAN-KapazitĂ€t haben wird, so dass es fĂŒr ein "Onloading" in Frage kommt.End-user devices such as smart phones and tablets have become very popular as they offer a variety of wireless Internet accesses ranging from the WLAN standards to WWAN technologies such as LTE or even WiMAX. Due to these different wireless access options and new emerging applications—e.g., from the areas of video streaming, social networks, as well as Internet clouds—people are increasingly connecting to the Internet with their de- vices while being on the move. In line with this, the number of devices as well as the traffic demand of end users have been reported to increase rapidly over the last years which imposes a strong challenge especially for the operators of WWANs. Thereby, end users frequently tend to use settings that favor a connectivity to the Internet whenever possible rather over WLAN than over WWAN access. Further, the cellular standardization bodies of the 3GPP envision solutions to hand over on-going wireless sessions from cellular to other small cell accesses such as WLANs or femto cells. This is also known as traffic offloading essentially freeing capacity in terms of users with a certain service in the cellular accesses. Nevertheless this offloading follows a rather simple strategy to utilize additional capacity of heterogeneous accesses such as WLANs whenever being available for a given device. This thesis shows that stronger gains can be expected if the selection of devices to be served in WLANs is conducted in a resource-aware fashion including an evaluation of the WLAN traffic in terms of the channel occupation time and MAC overhead as result of contention, interference, and fluctuating channels. In this context, this thesis envisions to onload unfavorable devices negatively affecting the WLAN capacity back to WWAN accesses. A support of such an onloading imposes challenges in different dimensions. From the hardware design of devices, there is a strong trend to limit the number of separate network interface cards (NICs) due to space and cost issues. We refer to a multi-mode NIC if it covers multiple technologies, while at a given time only access to one technology is possible. Thus, smoothly onloading a device with such a NIC is by far not trivial. We present an approach that conducts handover preparation mechanisms, while also allowing a continuous WLAN communication over a multi-mode NIC. Further, it is by far not trivial to judge which subset of associated devices is negatively affecting the capacity of a WLAN hotspot. Thus, a careful evaluation of devices regarding a selection for an onloading back to WWAN accesses imposes a challenge yet. In this direction, we present a performance metric that identifies devices degrading the WLAN capacity. While our performance metric tackles a reactive selection, it falls short to support a predictive evaluation, e.g., of devices which just joined the WLAN cell. Even worse, proprietary algorithms inside a WLAN stack impose a severe challenge as their internal routines are usually not conveyed via typical management interfaces. A well-known example for this category of algorithms are the link data rate adaptation schemes, with which WLAN devices adjust the modulation and coding scheme (MCS) for their transmissions. As MCSs resulting in low link data rates may specifically degrade the capacity of a WLAN cell, we focus on an estimation regarding the data rate selection of a device as a third contribution of this thesis. This estimation enables to select devices that will likely degrade the capacity of the WLAN hotspot for an onloading in advance

    Performance of Wi-Fi coordination schemes for VolP in the presence of FTP data.

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    Evolved 3GPP cellular core networks have made co-existence of heterogeneous Wireless Access networks (HetNets) possible. The evolved core network along with the development of multimode end user devices have led to the realisation of converged Access Networks. Wireless Local Area Networks (WLANs) are assuming a prominent role in the telecommunications ecosystem due to their cost effectiveness, ease of deployment and operation in the free spectrum. Although WLANs are only data centric, there will be greater demand for Voice over Internet Protocol (VoIP) over WLANs as multimode smart-phones become accessible and operators integrate WLANs into their business models. Therefore, it is imperative that WLAN’s ability to support VoIP services is thoroughly understood. Currently, the design of call admission control mechanisms for WLANs that support heterogeneous (data and voice) traffic is a challenging issue. The challenge stems from the difficulty of modelling the behaviour heterogeneous traffic, mixed VoIP and data traffic. IEEE 802.11 WLANs use two types of medium access schemes, the polling based schemes and the contention based schemes. Both types of WLAN coordination schemes have not been thoroughly investigated for their ability to support VoIP over WLANs in the presence of File Transfer Protocol (FTP) data sessions. File Transfer Protocol (FTP) is a Transport Control Protocol(TCP) based file exchange protocol. TCP was optimised for wired networks and as a result it is unsuitable for wireless network. Furthermore, it was not optimised to co-exist with VoIP and as a result of its burstiness it has severe impact on the jitter, packet-loss and delay of VoIP traffic. The purpose of the work presented in this report is to evaluate the performance of Distributed Coordinated Function (DCF), Point Coordination Function (PCF) and Enhanced Distributed Coordinated Function (EDCF) techniques’ ability to manage Voice Over Internet Protocol (VoIP) over WLAN in the presence of contending heavy FTP data. The key question this work seeks to answer is, are the Medium Access Control (MAC) coordination techniques in their present form capable of carrying VoIP data in the presence of other data. In other words, how realistic is the deployment of VoIP services with FTP services in the same network, using the current coordination schemes for WLAN? Can these coordination schemes be improved by using current MAC enhancements such as fragmentation and increasing the Access Point buffer? The study is carried out for IEEE 802.11g as this is still the most widely deployed standard. The performance is evaluated by setting up a network of stations that generate both voice and FTP traffic in OPNET. The two network configurations are 30-Voice stations and 30-FTP stations; 15-Voice stations and 45-FTP stations. Moreover, two codecs G.711 and G.723 are compared to assess the effect of codec selection on performance

    Extending WiFi access for rural reach

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    Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2007.WiFi can be used to provide cost-effective last-mile IP connectivity to rural users. In initial rollout, hotspots or hotzones can be positioned at community centres such as schools, clinics, hospitals or call-centres. The research will investigate maximizing coverage using physical and higher layer techniques. The study will consider a typical South African rural region, with telecommunications services traffic estimates. The study will compare several IEEE 802.11 deployment options based on the requirements of the South African case in order to recommend options that improve performance

    A comparative investigation on the application and performance of Femtocell against Wi-Fi networks in an indoor environment

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    Due to the strenuous demands on the available spectrum and bandwidth, alongside the ever increasing rate at which data traffic is growing and the poor quality of experience QoE) faced with indoor communications, in order for cellular networks to remain dominant in areas pertaining to voice and data services, cellular service providers have to reform their marketing and service delivery strategies together with their overall network rchitecture. To accomplish this leap forward in performance, cellular service operators need to employ a network topology, which makes use of a mix of macrocells and small cells, effectively evolving the network, bringing it closer to the end-­‐user. This investigation explores the use of small cell technology, specifically Femtocell technology in comparison to the already employed Wi-­‐Fi technology as a viable solution to poor indoor communications.The performance evolution is done by comparing key areas in the every day use of Internet communications. These include HTTP testing, RTP testing and VoIP testing. Results are explained and the modes of operation of both technologies are compared

    A quality of service architecture for WLAN-wired networks to enhance multimedia support

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    Includes abstract.Includes bibliographical references (leaves 77-84).The use of WLAN for the provision of IP multimedia services faces a number of challenges which include quality of service (QoS). Because WLAN users access multimedia services usually over a wired backbone, attention must be paid to QoS over the integrated WLAN-wired network. This research focuses on the provision of QoS to WLAN users accessing multimedia services over a wired backbone. In this thesis, the IEEE 802.11-2007 enhanced data channel access (EDCA) mechanism is used to provide prioritized QoS on the WLAN media access control (MAC) layer, while weighted round robin (WRR) queue scheduling is used to provide prioritized QoS at the IP layer. The inter-working of the EDCA scheme in the WLAN and the WRR scheduling scheme in the wired network provides end-to-end QoS on a WLAN-wired IP network. A mapping module is introduced to enable the inter-working of the EDCA and WRR mechanisms

    Interference Management in Dense 802.11 Networks

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    Wireless networks are growing at a phenomenal rate. This growth is causing an overcrowding of the unlicensed RF spectrum, leading to increased interference between co-located devices. Existing decentralized medium access control (MAC) protocols (e.g. IEEE 802.11a/b/g standards) are poorly designed to handle interference in such dense wireless environments. This is resulting in networks with poor and unpredictable performance, especially for delay-sensitive applications such as voice and video. This dissertation presents a practical conflict-graph (CG) based approach to designing self-organizing enterprise wireless networks (or WLANs) where interference is centrally managed by the network infrastructure. The key idea is to use potential interference information (available in the CG) as an input to algorithms that optimize the parameters of the WLAN.We demonstrate this idea in three ways. First, we design a self-organizing enterprise WLAN and show how the system enhances performance over non-CG based schemes, in a high fidelity network simulator. Second, we build a practical system for conflict graph measurement that can precisely measure interference (for a given network configuration) in dense wireless environments. Finally, we demonstrate the practical benefits of the conflict graph system by using it in an optimization framework that manages associations and traffic for mobile VoIP clients in the enterprise. There are a number of contributions of this dissertation. First, we show the practical application of conflict graphs for infrastructure-based interference management in dense wireless networks. A prototype design exhibits throughput gains of up to 50% over traditional approaches. Second, we develop novel schemes for designing a conflict graph measurement system for enterprise WLANs that can detect interference at microsecond-level timescales and with little network overhead. This allows us to compute the conflict graph up to 400 times faster as compared to the current best practice proposed in the literature. The system does not require any modifications to clients or any specialized hardware for its operation. Although the system is designed for enterprise WLANs, the proposed techniques and corresponding results are applicable to other wireless systems as well (e.g. wireless mesh networks). Third, our work opens up the space for designing novel fine-grained interference-aware protocols/algorithms that exploit the ability to compute the conflict graph at small timescales. We demonstrate an instance of such a system with the design and implementation of an architecture that dynamically manages client associations and traffic in an enterprise WLAN. We show how mobile clients sustain uninterrupted and consistent VoIP call quality in the presence of background interference for the duration of their VoIP sessions

    Improving the QoS of IEEE 802.11e networks through imprecise computation

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    IEEE 802.11e HCCA reference scheduler is based on fixed value parameters that do not adapt to traffic changes, thus quality of service (QoS) for multimedia applications is a challenge, especially in the case of variable bit rate (VBR) streams, that requires dynamic resource assignment. This paper is focused on immediate dynamic TXOP HCCA (IDTH) scheduling algorithm and its new evolution immediate dynamic TXOP HCCA plus (IDTH+). Their reclaiming mechanisms, refined by the monitoring of transmission duration, aim at overcoming the limits of fixed preallocation of resources by varying the stations transmission time and avoiding waste of resources. Simulations and theoretical analysis based on the imprecise computation model show that the integration of IDTH and IDTH+ can achieve improved network performance in terms of transmission queues length, mean access delay and packets drop rate, and to efficiently manage bursty traffic. Moreover, the performance improvements of IDTH+ with respect to IDTH are highlighted
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