Research Article
Enabling SDN Experimentation with Wired and Wireless Resources: The SmartFIRE Facility
@INPROCEEDINGS{10.1007/978-3-319-38904-2_29, author={Kostas Choumas and Thanasis Korakis and Hyunwoo Lee and Donghyun Kim and Junho Suh and Ted Kwon and Pedro Martinez-Julia and Antonio Skarmeta and Taewan You and Loic Baron and Serge Fdida and JongWon Kim}, title={Enabling SDN Experimentation with Wired and Wireless Resources: The SmartFIRE Facility}, proceedings={Cloud Computing. 6th International Conference, CloudComp 2015, Daejeon, South Korea, October 28-29, 2015, Proceedings}, proceedings_a={CLOUDCOMP}, year={2016}, month={5}, keywords={SDN Wireless Cloud Testbed experimentation}, doi={10.1007/978-3-319-38904-2_29} }
- Kostas Choumas
Thanasis Korakis
Hyunwoo Lee
Donghyun Kim
Junho Suh
Ted Kwon
Pedro Martinez-Julia
Antonio Skarmeta
Taewan You
Loic Baron
Serge Fdida
JongWon Kim
Year: 2016
Enabling SDN Experimentation with Wired and Wireless Resources: The SmartFIRE Facility
CLOUDCOMP
Springer
DOI: 10.1007/978-3-319-38904-2_29
Abstract
Over the last few years, several experimentation platforms have been deployed around the world, providing to the computer science research community a way to remotely perform and control networking experiments. Most of the platforms, called testbeds, offer experimentation as a service. However, each testbed is specialized in a specific technology: wired, wireless or cloud. The challenge for experimenters is thus to combine different technologies in order to tackle the research questions they address. Therefore a federation framework has been developed thanks to several projects, including SmartFIRE. SmartFIRE is an intercontinental federation of SDN, wireless and cloud testbeds, aiming at providing experimentation services with resources from these various networking fields. This federation framework enables easy experimentation with the heterogeneous resources that the individual testbeds provide. In this article, we present our contributions towards the extension of the state-of-the-art control and management framework, in order to orchestrate the federated SmartFIRE facility. As a proof of concept, we demonstrate several use cases that take advantage of our contributions, providing the availability of experimentation on novel architectures.