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Publication
LEAF: Improving handoff flexibility of IEEE 802.11 networks with an SDN-based virtual access point framework
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Advisor(s)
Abstract(s)
Mobile devices’ popularization has brought several new applications to communication networks. As we move into an increasingly denser scenario, problems such as collisions between transmissions and unbalanced load become more pronounced. Moreover, while station-based handoff is inefficient to reduce these issues, network-wide handover decisions might provide better network resource management. This paper proposes LEAF, an access point virtualization solution based on Software Defined Networking to enable station (STA) handover conducted by the network, based on a global scope. Unlike other solutions in the literature, our proposal fully supports multichannel migrations through the IEEE 802.11h Channel Switch Announcement without restricting the channel utilization by the access points. To demonstrate the feasibility of such an approach, we present experimental data regarding the behavior of several different devices in face of this mechanism. We also evaluate our complete virtualization solution, which reveals that the handoff of STAs did not lead to significant packet losses or delays in STAs’ connections, while providing a foundation to improve network’s self-management and flexibility, allowing association control and load balancing tasks to be executed on top of our solution.
Description
Keywords
Handover Switches Virtualization Proposals Probes Delays Wireless fidelity Channel switch announcement Software defined networking Virtual access points Wireless networks
Pedagogical Context
Citation
Vieira, J. L., Mosse, D., & Passos, D. (2024). LEAF: Improving handoff flexibility of IEEE 802.11 networks with an SDN-based virtual access point framework. IEEE Transactions on Network and Service Management, 21(6), 6630-6642. https://doi.org/10.1109/TNSM.2024.3441390
Publisher
IEEE