RT Journal Article
T1 CDN Slicing over a Multi-Domain Edge Cloud
A1 Taleb, Tarik
A1 Frangoudis, Pantelis A.
A1 Benkacem, Ilias
A1 Ksentini, Adlen
AB We present an architecture for the provision of video Content Delivery Network (CDN) functionality as a service over a multi-domain cloud. We introduce the concept of a CDN slice, that is, a CDN service instance which is created upon a content provider’s request, is autonomously managed, and spans multiple, potentially heterogeneous, edge cloud infrastructures. Our design is tailored to a 5G mobile network context, building on its inherent programmability, management flexibility, and the availability of cloud resources at the mobile edge level, thus close to end users. We exploit Network Functions Virtualization (NFV) and Multi-access Edge Computing (MEC) technologies, proposing a system which is aligned with the recent NFV and MEC standards. To deliver aQuality-of-Experience (QoE) optimized video service, we derive empirical models of video QoE as a function of service workload, which, coupled with multi-level service monitoring, drive our slice resource allocation and elastic management mechanisms. These management schemes feature autonomic compute resource scaling, and on-the-fly transcoding to adapt video bit-rate to the current network conditions. Their effectiveness is demonstrated via testbed experiments.
PB IEEE
SN 1536-1233
YR 2019
FD 2019-06
LK https://hdl.handle.net/10016/29125
UL https://hdl.handle.net/10016/29125
LA eng
NO In press / En prensa
NO This work was partially funded by the Academy of Finland Project CSN under Grant Agreement No. 311654, and the Academy of Finland’s Flagship Programme 6Genesis under Grant Agreement No. 318927. The work is also partially supported by the European Union’s Horizon 2020 research and innovation program under the 5G!Pagoda, 5GTRANSFORMER, and MATILDA projects with grant agreement No. 723172, No. 761536, and No. 761898, respectively.
DS e-Archivo
RD 5 jul. 2024