An Integrated, Virtualized Joint Edge and Fog Computing System with Multi-RAT Convergence
Author(s):
Rapone, Damiano; Quasso, Roberto; Chundrigar, Shahzoob Bilal; Talat, Samer T.; Cominardi, Luca; Oliva Delgado, Antonio de la; Kuo, Ping-Heng; Mourad, Alain; Colazzo, Alessandro; Parmeggiani, Giacomo; Zabala Orive, Aitor; Lu, Chenguang; Li, Chi-Yu
Publisher:
IEEE
Issued date:
2018-08-16
Citation:
Rapone, D., Quasso, R., Chundrigar, S.B., Talat, S.T., Cominardi, L., Oliva, A. De la., Kuo, P.-H., Mourad, A., Colazzo, A., Parmeggiani, G., Zabala Orive, A., Lu, C., Li, C.-Y. (2018). An Integrated, Virtualized Joint Edge and Fog Computing System with Multi-RAT Convergence. Paper submitted in 2018 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB), Valencia.
ISBN:
978-1-5386-4729-5/18
(PoD) 978-1-5386-4730-1
ISSN:
2155-5052
Sponsor:
This work has been partially funded by the H2020 collaborative Europe/Taiwan research project 5G-CORAL (grant num. 761586)
Project:
info:eu-repo/grantAgreement/EC/H2020/761586
Keywords:
Cloud
,
Edge
,
Fog
,
RAN
,
MEC
,
NFV
,
Multi-RAT
,
5G
Rights:
© 2018 IEEE
Abstract:
Notably, developing an innovative architectural network paradigm is essential to address the technical challenging of 5G applications' requirements in a unified platform. Forthcoming applications will provide a wide range ofnetworking, computing and storage ca
Notably, developing an innovative architectural network paradigm is essential to address the technical challenging of 5G applications' requirements in a unified platform. Forthcoming applications will provide a wide range ofnetworking, computing and storage capabilities closer to the endusers.In this context, the 5G-PPP Phase two project named "5GCORAL:A 5G Convergent Virtualized Radio Access Network Living at the Edge" aims at identifying and experimentally validating which are the key technology innovations allowing for the development of a convergent 5G multi-RAT access based on a virtualized Edge and Fog architecture being scalable, flexible and interoperable with other domains including transport, core network and distant Clouds. In 5G-CORAL, an architecture is proposed based on ETSI MEC and ETSI NFV frameworks in a unified platform. Then, a set of exemplary use cases benefiting from Edge and Fog networks in near proximity of the end-user are proposed for demonstration on top of connected car, shopping mall and high-speed train platforms.
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