ALPHA-ARCHITECTURES FOR FLEXIBLE PHOTONIC HOME AND ACCESS NETWORKS
Project identification number:
The ALPHA project addresses the challenges of building the future access and all types of in-building networks for home and office environments. The proposal supports the evolution towards a cognitive network by dynamically utilising the resources of an optical network infrastructure to support a heterogeneous environment of wired and wireless technologies.The project investigates innovative architectural and transmission solutions based on the manifold of optical fibres (single-, multi-mode and plastic) as well as wireless technology to support both wired and wireless services in a converged network infrastructure. The focus is on using the newest physical layer achievements and adequate management and control algorithms to reach a yet unprecedented end-to-end provisioned capacity for access and in-building networks at a fraction of the price of today's technologies and to simultaneously include the transport of existing 2G/3G and Beyond 3G (B3G) signals whether they are Internet Protocol (IP) or non-IP-based.
The project starts with analysing the potential future bandwidth and quality-of-service (QoS) requirements which can be posed by future services in the scope of access and in-building networks such as Ultra HD Video, Local Storage Area Network, remote medical applications and others, and mapping those requirements into network specifications. The questions on the best applicable media, necessity for optical layer dynamics, compatibility of network types at the physical layer, foundations for better QoS provisioning and embedding of 2G/3G and B3G signals into the networks are then addressed within the project.
The project pursues experimental validations of close-to-maturity technologies in laboratory tests and field trials by intensively exploiting the three project testbeds. The project also includes long-term research activities targeting to improve the existing technologies, and follows an intensive dissemination and standardisation strategy.
- Roberto Gaudino. (Responsabile Scientifico)
- 3S PHOTONICS
- ACREO AB
- ALCATEL-LUCENT FRANCE
- ALMA MATER STUDIORUM UNIVERSITA' DI BOLOGNA
- ANDREW WIRELESS SYSTEM SRL
- FRANCE TELECOM R & D
- HOMEFIBRE DIGITAL NETWORK GMBH
- INTERDISCIPLINAIR INSTITUUT VORR BREEDBANDTECHNOLOGIE VZW
- LUCEAT S.P.A
- TECHNICAL UNIVERSITY OF DENMARK
- Technische Universiteit Eindhoven
- TELEFONICA I+D
- TELEKOMUNIKACJA POLSKA S.A.
- TELSEY SPA
- UNIVERSIDAD POLITECNICA DE VALENCIA
- UNIVERSITY OF WALES