In order to overcome the cloud service performance limits, the INPUT
Project aims to go beyond the typical IaaS-based service models by moving
computing and storage capabilities from the datacenters to the edge
network, and consequently moving cloud services closer to the end users.
This approach, which is compatible with the concept of Fog Computing, will
exploit Network Functions Virtualization (NFV) and Software Defined
Networking (SDN) to support personal cloud services in a more scalable and
sustainable way and with innovative added-value capabilities. This paper
presents OpenVolcano, the open- source software platform under development
in the INPUT Project, which will realize the fog computing paradigm by
exploiting in-network programmability capabilities for off-loading,
virtualization and monitoring.
%0 Conference Paper
%1 Bruschi2016
%A Bruschi, Roberto
%A Lago, Paolo
%A Lombardo, Chiara
%A Mangialardi, Sergio
%B Programmability for Cloud Networks and Applications 2016 (PROCON 2016)
%C Würzburg, Germany
%D 2016
%K itc itc28
%T OpenVolcano: An Open-Source Software Platform for Fog Computing
%U https://gitlab2.informatik.uni-wuerzburg.de/itc-conference/itc-conference-public/-/raw/master/itc28/Bruschi2016.pdf?inline=true
%X In order to overcome the cloud service performance limits, the INPUT
Project aims to go beyond the typical IaaS-based service models by moving
computing and storage capabilities from the datacenters to the edge
network, and consequently moving cloud services closer to the end users.
This approach, which is compatible with the concept of Fog Computing, will
exploit Network Functions Virtualization (NFV) and Software Defined
Networking (SDN) to support personal cloud services in a more scalable and
sustainable way and with innovative added-value capabilities. This paper
presents OpenVolcano, the open- source software platform under development
in the INPUT Project, which will realize the fog computing paradigm by
exploiting in-network programmability capabilities for off-loading,
virtualization and monitoring.
@inproceedings{Bruschi2016,
abstract = {In order to overcome the cloud service performance limits, the INPUT
Project aims to go beyond the typical IaaS-based service models by moving
computing and storage capabilities from the datacenters to the edge
network, and consequently moving cloud services closer to the end users.
This approach, which is compatible with the concept of Fog Computing, will
exploit Network Functions Virtualization (NFV) and Software Defined
Networking (SDN) to support personal cloud services in a more scalable and
sustainable way and with innovative added-value capabilities. This paper
presents OpenVolcano, the open- source software platform under development
in the INPUT Project, which will realize the fog computing paradigm by
exploiting in-network programmability capabilities for off-loading,
virtualization and monitoring.},
added-at = {2016-08-31T16:30:53.000+0200},
address = {Würzburg, Germany},
author = {Bruschi, Roberto and Lago, Paolo and Lombardo, Chiara and Mangialardi, Sergio},
biburl = {https://www.bibsonomy.org/bibtex/2fb5c0df1c99ef679185329d23a56d54e/itc},
booktitle = {Programmability for Cloud Networks and Applications 2016 (PROCON 2016)},
days = {12},
interhash = {bfbf3e0e67ea40ee5e1c03b4719bbb39},
intrahash = {fb5c0df1c99ef679185329d23a56d54e},
keywords = {itc itc28},
month = {Sept},
timestamp = {2020-05-26T16:53:35.000+0200},
title = {OpenVolcano: An Open-Source Software Platform for Fog Computing},
url = {https://gitlab2.informatik.uni-wuerzburg.de/itc-conference/itc-conference-public/-/raw/master/itc28/Bruschi2016.pdf?inline=true},
year = 2016
}