CloudMAC - An OpenFlow based architecture for 802.11 MAC layer processing in the cloud

CloudMAC - An OpenFlow based architecture for 802.11 MAC layer processing in the cloud

IEEE 802.11 WLANs are a very important technology to provide high speed wireless Internet access. Especially at airports, university campuses or in city centers, WLAN coverage is becoming ubiquitous leading to a deployment of hundreds or thousands of Access Points (AP). Managing and configuring such...

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Bibliographic Details
Published in:2012 IEEE Globecom Workshops pp. 186 - 191
Main Authors: Dely, P., Vestin, J., Kassler, A., Bayer, N., Einsiedler, H., Peylo, C.
Format: Conference Proceeding
Language:English
Published: IEEE 01-12-2012
Subjects:
Cloud
Computer architecture
Computer Science
Datavetenskap
IEEE 802.11 Standards
MAC Layer
Software Defined Networking
Switches
Wireless communication
Wireless LAN
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Summary:IEEE 802.11 WLANs are a very important technology to provide high speed wireless Internet access. Especially at airports, university campuses or in city centers, WLAN coverage is becoming ubiquitous leading to a deployment of hundreds or thousands of Access Points (AP). Managing and configuring such large WLAN deployments is a challenge. Current WLAN management protocols such as CAPWAP are hard to extend with new functionality. In this paper, we present CloudMAC, a novel architecture for enterprise or carrier grade WLAN systems. By partially offloading the MAC layer processing to virtual machines provided by cloud services and by integrating our architecture with OpenFlow, a software defined networking approach, we achieve a new level of flexibility and reconfigurability. In Cloud-MAC APs just forward MAC frames between virtual APs and IEEE 802.11 stations. The processing of MAC layer frames as well as the creation of management frames is handled at the virtual APs while the binding between the virtual APs and the physical APs is managed using OpenFlow. The testbed evaluation shows that CloudMAC achieves similar performance as normal WLANs, but allows novel services to be implemented easily in high level programming languages. The paper presents a case study which shows that dynamically switching off APs to save energy can be performed seamlessly with CloudMAC, while a traditional WLAN architecture causes large interruptions for users.
ISBN:9781467349420
1467349429
ISSN:2166-0077
2166-0077
DOI:10.1109/GLOCOMW.2012.6477567