Description du projet
Une plate-forme globale pour tester les technologies 5G habilitantes
Le projet Int5Gent, financé par l’UE, vise le développement d’une plate-forme complète basée sur le système 5G pour la validation de services 5G avancés et de solutions IdO (Internet des objets). Le projet s’appuie sur une suite de solutions utilisant la technologie de base du réseau 5G et développées sous le 5G-PPP. Parmi ces technologies, l’on peut notamment citer le traitement flexible des signaux de la bande de base à multiples technologies d’accès radio (RAT), l’orientation de faisceau, les solutions basées sur la technologie Ondemm à des bandes de fréquence de 60 GHz et 150 GHz, un processeur Edge matériel, les capacités de traitement par processeur graphique, les terminaux 5G innovants et le transport élastique de données photoniques basé sur le modèle SDN. La plate-forme dans son ensemble est mise en œuvre sur deux bancs d’essais étendus, qui comprennent de réels segments déployés sur le terrain, gérés par les opérateurs réseau du consortium.
Objectif
Int5Gent targets the integration of innovative data plane technology building blocks under a flexible 5G network resource, slice and application orchestration framework, providing a complete 5G system platform for the validation of advance 5G services and IoT solutions.
The project builds upon a suite of innovative 5G technological solutions spanning hardware, software, and networking systems that have been conceptualized and developed under the latest 5GPPP initiative projects and are now taken to TRL-7 and above. It also combines novel and state-of-the-art solutions able to further upgrade the capabilities and maturity level of cutting-edge 5G core technologies enabling the creation of an innovative 5G ecosystem. A sample of the developed and offered technologies include flexible multi-RAT baseband signal processing, beam steering, mmWave technology solutions at 60GHz and 150GHz bands, hardware-based edge processor with TSN, GPU processing capabilities, innovative 5G terminals and elastic SDN-based photonic data transport. The integration of the technology blocks is performed as part of an overall 5G architecture that promotes edge processing and is orchestrated by an NFVO compatible framework with edge node extensions at the network layer and an overlay vertical services application orchestrator at the user plane layer.
The overall platform is implemented in two extended testbeds which include actual field deployed segments and managed by the network operators of the consortium. The validation and showcasing testbeds host 3 use case scenarios covering the deployment of services related to multiple vertical sectors as well as innovative applications for smart IoT networked devices. The use cases are designed in order to highlight the benefits of the adopted technologies in terms of increased bandwidth, low latency and high reliability and create new markets opportunities especially for the participating SMEs through pilot validation of their offered solutions.
Champ scientifique
- engineering and technologyelectrical engineering, electronic engineering, information engineeringinformation engineeringtelecommunicationstelecommunications networksmobile network5G
- natural sciencescomputer and information sciencesinternetinternet of things
- natural sciencescomputer and information sciencessoftware
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsignal processing
Mots‑clés
Programme(s)
Régime de financement
IA - Innovation actionCoordinateur
106 82 ATHINA
Grèce