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Giuseppe Carella

Lupe

Research fellow

Kaiserin-Augusta-Allee 31
10589 Berlin
Phone +49 30 3463-7387

http://www.av.tu-berlin.de/carella

 

Graduated:
2011, Alma Mater Studiorum University of Bologna, M.Sc.

Master Thesis:
Giuseppe Carella, QoS-aware brokering support for IMS Infrastructures in cloud, 2011.

Curriculum Vitae

Giuseppe Carella received his M.Sc. in Engineering of Computer Science from the Alma Mater Studiorum University of Bologna in 2011. During his studies he focalised on next generation network infrastructure, especially in IMS services, like presence and messaging. He realised his Master thesis, “QoS-aware brokering support for IMS Infrastructures in cloud”, working at Fraunhofer FOKUS focusing on IMS and cloud computing, as one of the first work realised in the context of Network Function Virtualization (NFV). In 2012 he joined the Next Generation Networks (AV) team at the Technical University Berlin, where he started working on Future Internet projects like OpenLab and BonFIRE. He is mainly interested in new network architectures, like the IP Multimedia Subsystem (IMS) and the Evolved Packet Core (EPC), and he has a strong background in cloud computing technologies. He is currently involved as Software Engineer in the development of the OpenSDNCore platform, and involved in different European projects. 

Projects

Since the beginning he has been involved in many EU Projects part of the FP7: OpenLab, BonFIRE (EU BonFIRE project), Mobile Cloud Networking (https://mobile-cloud-networking.eu/) and NUBOMEDIA (https://www.nubomedia.eu/).

In the Mobile Cloud Networking project he is currently leading the activities related to the virtualisation and cloudification of the IMS platform, while in NUBOMEDIA he is bringing his expertise for realising an elastic cloud platform for Multimedia content. 

The BonFIRE Project supports experimentation and testing of innovative scenarios from the Internet of Services research community, specifically focused on the convergence of services and networks. In this project he is providing his expertise for enabling elasticity as a service.  

He was previously involved in OpenLab (EU OpenLab project). In this project he was designing and developing the Slice Federation Architecture (SFA) extension for the FITeagle framework. FITeagle (www.fiteagle.org) is a framework for the interoperability of different testbeds. Furthermore SFA will increase the number of federated testbeds, allowing teagle experimenters to interoperate with an high number of heterogeneous resources. 

In parallel he coordinates the development of the OpenSDNCore platform, a software toolkit for realising research related to Network Function Virtualization and Software Defined Networks. 

 

 

Publications

A solution for provisioning reliable M2M infrastructures using SDN and device management
Citation key Corici2015b
Author Corici, Andreea Ancuta and Shrestha, Ranjan and Carella, Giuseppe and Elmangoush, Asma and Steinke, Ronald and Magedanz, Thomas
Title of Book 2015 3rd International Conference on Information and Communication Technology (ICoICT)
Pages 81–86
Year 2015
ISBN 978-1-4799-7752-9
DOI 10.1109/ICoICT.2015.7231401
Month may
Publisher IEEE
Abstract The current trend of running software components on top of virtual machines in cloud platforms is gaining more momentum as it reduces the deployment time and operational costs in comparison to running them on dedicated hardware. By providing elasticity through orchestration, this approach brings even more value taking advantage of the resources on peak times and saving energy when the load is not significant. However, such an approach brings some challenges due to the dynamic instantiation of new service components: it is necessary to always announce clients changes in the backend infrastructure. In this paper, we propose a solution for dynamically communicating parameters provisioning between M2M endpoints using a device management protocol. Two device management protocols were compared and OMA LWM2M was chosen for its energy efficiency. The proposed solution is based on the OpenMTC toolkit and enables safe and reliable communication establishment from one M2M endpoint to another one elastically deployed in the cloud.
Link to publication Download Bibtex entry

Presentations and demos

"OpenSDNCore: a Framework for prototyping virtualized Network Function Orchestration in emerging SDN-based 5G Infrastructures", Carrier Network Virtualization 2014, Palo Alto

"Mobile Cloud Networking - end-to-end deployment of a virtualized Mobile Core Network", GlobeCom 2015, Austin

"Smart Communication Platforms for OTT and Telco-integrated Communication Services", Giuseppe Carella and Thomas Magedanz, 9th SDP Global Summit – ”Service Delivery Virtualization“ September 17th, 2013, Rome

"SDP and Core Network Virtualization", Giuseppe Carella and Thomas Magedanz, 9th SDP Global Summit – ”Service Delivery Virtualization“ September 17th, 2013, Rome

"Mobile Cloud Networking", Orchestration of a Mobile Core Network on top of an OpenStack Cloud, EUCNC 2014 and FIA 2014 

Tutorials

"5G Foundations and Core Network Evolution: Radio, Convergence Core, Cognitive Management and Virtualisation (SDN/NFV)", FUSECO Forum 2014, Berlin

Zusatzinformationen / Extras

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