ElasTest Passes European Commission’s Review Successfully!

On July 18th in Brussels project partners presented ElasTest results and progress to a tribunal of three independent experts appointed by the European Commission and the EC Project Officer. The key project objective is to improve the efficiency of testing large-scale complex software systems. The ElasTest project is coordinated by URJC. ZHAW’s ICCLab is a key project partner delivering research and technology in the area of service delivery, monitoring and billing. 

The objective of this review was to evaluate the project progress and to show all technical evolution and of course check on the administrative coordination of the first 18 months. For assessing the project, the three reviewers analysed all the public and private information related to the project.

We had an 8 hours evaluation meeting and we were able to show the progress made in research, innovation, demos, exploitation plans, sustainability, and coordination issues of course were  also presented. The most challenging part was to show the demonstration of the software developed by the different project partners: a one-hour session in which all the software artifacts were successfully demonstrated, including the ZHAW work. All of these efforts were welcomed by the reviewers. Finally, after an initial deliberation, the reviewers communicated their decision to approve the project and congratulated the team on a successful review!

The project is now focused on the second phase: once the initial platform has been developed is integrated and its up-and-running, most of our efforts will aim to dedicate to research and create a community of users around ElasTest.

For more information on ElasTest checkout our site and code repositories.

MCN and ICCLab Demo at EUCNC

As part of our on-going work in MobileCloud Networking the project demonstrated at this year’s EUCNC, held in a very warm (> 35*C !!!) Paris, France.

The MCN demonstration was built on top of a standard cloud infrastructure, leveraging key technologies of OpenStack and OpenShift and used (open source outputs of MCN, namely hurtle – the cloud orchestration framework of the ICCLab which is used throughout MCN to enable service delivery. Also demonstrated was the use of the ICCLab’s billing solution, Cyclops that is orchestrated using Hurtle. All of this delivers a NFV-compatible, on-demand, composed service instance.

The MobileCloud Networking (MCN) approach and architecture was demonstrated aiming to show new innovative revenue streams based on new service offerings and the optimisation of CAPEX/OPEX. Of particular note and focus, the work highlighted results of cloudifying the Radio Access Network (RAN) and delivering this capability as an on-demand service.

Supporting this focus was the composition of an end-to-end service (RAN, EPC, IMS, DNS, Monitoring & Billing) instance via the MCN dashboard. This demo service is standards compliant and features interoperable implementations of ETSI NFV, OCCI and 3GPP software.