2012 European Workshop on Software Defined Networking 2012
DOI: 10.1109/ewsdn.2012.27
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Techno-economic Analysis of Software Defined Networking as Architecture for the Virtualization of a Mobile Network

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Cited by 68 publications
(49 citation statements)
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“…Some of these efforts include new architectures for a smooth migration from the current mobile core infrastructure to SDN [222], and techno-economic models for virtualization of these networks [549], [550]; carrier-grade OpenFlow virtualization schemes [551], [112], including virtualized broadband access infrastructures [552], techniques that are allowing the offer of network-as-a-service [553]; programmable GE-PON and DWDM ROADM [157], [158], [159], [160]; largescale inter-autonomous systems (ASs) SDN-enabled deployments [554]; flexible control of network resources [555], including offering MPLS services using an SDN approach [556]; and the investigation of novel network architectures, from proposals to separate the network edge from the core [557], [558], with the latter forming the fabric that transports packets as defined by an intelligent edge, to software-defined Internet exchange points [559], [526].…”
Section: H Meeting Carrier-grade and Cloud Requirementsmentioning
confidence: 99%
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“…Some of these efforts include new architectures for a smooth migration from the current mobile core infrastructure to SDN [222], and techno-economic models for virtualization of these networks [549], [550]; carrier-grade OpenFlow virtualization schemes [551], [112], including virtualized broadband access infrastructures [552], techniques that are allowing the offer of network-as-a-service [553]; programmable GE-PON and DWDM ROADM [157], [158], [159], [160]; largescale inter-autonomous systems (ASs) SDN-enabled deployments [554]; flexible control of network resources [555], including offering MPLS services using an SDN approach [556]; and the investigation of novel network architectures, from proposals to separate the network edge from the core [557], [558], with the latter forming the fabric that transports packets as defined by an intelligent edge, to software-defined Internet exchange points [559], [526].…”
Section: H Meeting Carrier-grade and Cloud Requirementsmentioning
confidence: 99%
“…Scale up to meet demands, and scale down to conserve resources (elastic middleboxes). [571], [549] Other Issues Energy saving strategies are hard to implement. Flexible and easy to deploy energy saving strategies.…”
Section: Deployment and Managementmentioning
confidence: 99%
“…Software defined networking offers great opportunities to increase efficiency while at the same time reducing costs and complexity 53,54 . Today's cloud computing demands are exploding, and as a result less energy consumption and high security networking is needed 21,4 .…”
Section: Software Defined Networking: Effect -Economic Factorsmentioning
confidence: 99%
“…Proposals in this area have encompassed Software-Defined Wireless Networks [6,7], Wireless Mesh Software-Defined Networks [8], and mobile technologies, particularly Long Term Evolution (LTE) [9,10]. Naudts et al [11] highlighted the technoeconomic case for the transition to an SDN based mobile network infrastructure supported by claimed capital expenditure savings, compared to traditional infrastructures, ranging from almost 14% with SDN alone and up to 58% when a virtualized shared SDN is considered. Some examples of proposals for SDN integration with mobile networks include the deployment of radio access base stations [12] and LTE network components [13] into cloud environments.…”
Section: Related Workmentioning
confidence: 99%