A centralized framework for smart access point selection based on the Fittingness Factor

Raschellà, Alessandro; Bouhafs, Faycal; Seyedebrahimi, Mirghiasaldin; Mackay, Michael; Shi, Qi

doi:10.1109/ict.2016.7500386

Cited by 17 publications

(27 citation statements)

References 13 publications

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“…Wi-Fi management framework including Odin [155], EmPOWER [156], and OpenSDWN [147] has contributed to efficient SSID selection and device association. Other work has focused on using novel contention management algorithms to optimize access point (AP) selection, identifying the suitability of available wireless resources which meet application requirements, in turn saving bandwidth and increasing user satisfaction [157]. The resulting performance of the proposed architectures significantly improves the Signal-to-Noise Ratio (SNR) for the end users as well as the spectral efficiency at each AP in comparison with conventional approaches [154].…”

Section: Wi-fi Access Network the Increasing Popularity Ofmentioning

confidence: 99%

State of the Art and Recent Research Advances in Software Defined Networking

Bakhshi

2017

Wireless Communications and Mobile Computing

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Emerging network services and subsequent growth in the networking infrastructure have gained tremendous momentum in recent years. Application performance requiring rapid real-time network provisioning, optimized traffic management, and virtualization of shared resources has induced the conceptualization and adoption of new networking models. Software defined networking (SDN), one of the predominant and relatively new networking paradigms, seeks to simplify network management by decoupling network control logic from the underlying hardware and introduces real-time network programmability enabling innovation. The present work reviews the state of the art in software defined networking providing a historical perspective on complementary technologies in network programmability and the inherent shortcomings which paved the way for SDN. The SDN architecture is discussed along with popular protocols, platforms, and existing simulation and debugging solutions. Furthermore, a detailed analysis is presented around recent SDN development and deployment avenues ranging from mobile communications and data centers to campus networks and residential environments. The review concludes by highlighting implementation challenges and subsequent research directions being pursued in academia and industry to address issues related to application performance, control plane scalability and design, security, and interdomain connectivity in the context of SDN.

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Section: Wi-fi Access Network the Increasing Popularity Ofmentioning

confidence: 99%

State of the Art and Recent Research Advances in Software Defined Networking

Bakhshi

2017

Wireless Communications and Mobile Computing

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“…The project proposes an architecture [12] that acknowledges the heterogeneity of Wi-Fi networks operators and uses SDWN to provide a coordination platform among operators that could be used to implement cooperative spectrum management algorithms [14], [15], as illustrated in Fig. 1.…”

Section: Sdwn-based Wi-fi Management Frameworkmentioning

confidence: 99%

“…The choice of SDWN to build a cooperative Wi-Fi network management platform is justified by the centralised nature of this concept which offers the operators and any entity that manages a Wi-Fi AP, including households, an interface through which a cooperative spectrum utilisation policy could be agreed. Moreover, SDWN offers flexibility and cross-layer management, as the central controller is able to obtain monitoring information about the status of the network and execute the cooperative algorithms to react accordingly while respecting the requirements of the wireless users, such as the solution presented in [14]. It is worth mentioning that Wi-5 is currently developing a SDWN framework that extends the capabilities of OpenFlow to support the monitoring of Wi-Fi networks, the QoS requirements of wireless applications, and the configuration of Wi-APs [13].…”

Section: Sdwn-based Wi-fi Management Frameworkmentioning

confidence: 99%

Fine-Grained Radio Resource Management to Control Interference in Dense Wi-Fi Networks

Seyedebrahimi

Bouhafs

Raschellà

et al. 2017

2017 IEEE Wireless Communications and Networking Conference (WCNC)

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Abstract-In spite of the enormous popularity of Wi-Fienabled devices, the utilization of Wi-Fi radio resources (e.g. RF spectrum and transmission power levels) at Access Points (APs) is degraded in current decentralized Radio Resource Management (RRM) schemes. Most state of the art central control solutions apply configurations in which the network-wide impacts of the involved parameters and their mutual relationships are ignored. In this paper, we propose an algorithm for jointly adjusting the transmission power levels and optimizing the RF channel assignment of APs by taking into account the flows' required qualities while minimizing their interference impacts throughout the network. The proposed solution is tailored for an operatoragnostic and Software Defined Wireless Networking (SDWN)-based centralised RRM in dense Wi-Fi networks. Our extensive simulation results validate the performance improvement of the proposed algorithm compared to the main state of the art alternative by showing more than 25% higher spectrum efficiency, satisfying the users' demands and further mitigating the networkwide interference through a flow-based and quality-oriented power level adjustment.

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“…2. In this architecture, management solutions are implemented as applications on the northbound API of the SDN controller and algorithms for AP selection [23], [24], chan- nel assignment [25], [26], and RRM [27] have been already proposed for implementation to address spectrum congestion in Wi-Fi networks. The Wi-5 architecture defines a Spectrum Plane which enhances the operational capabilities of IEEE 802.11 APs by defining new monitoring and configuration primitives, and making APs programmable, thereby enabling fine-grained spectrum allocation and management.…”

Section: A Wi-5 Sdn Architecturementioning

confidence: 99%

QoS aware radio access technology selection framework in heterogeneous networks using SDN

Raschellà

Bouhafs

Deepak³

et al. 2017

J. Commun. Netw.

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This paper addresses the problem of radio access technology (RAT) selection in heterogeneous networks (HetNets). Current approaches rely on signal related metrics such as signal to interference plus noise ratio (SINR) for selection of the best network for the wireless user. However, such approaches do not take into account the quality of service (QoS) requirements of wireless users and therefore often do not connect them to the most suitable network. We propose a QoS aware RAT selection framework for HetNets based on software-defined networking (SDN). The proposed framework implements a RAT selection strategy that reflects QoS requirements of downlink flows using a metric called fittingness factor (FF). The framework relies on the flexibility and centralised nature of SDN to implement monitoring and RAT capacity assessment mechanisms that help in the realisation of the selection strategy. The simulation campaign illustrates the important gains achieved by our RAT selection framework in terms of data rates assigned to the wireless users, their satisfaction, and their quality of experience (QoE) compared against other state of the art RAT selection solutions.

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A centralized framework for smart access point selection based on the Fittingness Factor

Cited by 17 publications

References 13 publications

State of the Art and Recent Research Advances in Software Defined Networking

State of the Art and Recent Research Advances in Software Defined Networking

Fine-Grained Radio Resource Management to Control Interference in Dense Wi-Fi Networks

QoS aware radio access technology selection framework in heterogeneous networks using SDN

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