Broadband Communications Systems and Architectures Research Group

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Spanish Projects

  • Description

    The huge effort of several worldwide R&D public and private initiatives towards the design of 5G networks and systems carried out in the last few years is significantly contributing to the digital transformation of economy and society. Currently, network operators are provisioning initial 5G services and continuing the long process of network evolution for future advanced 5G services. However, the digital transformation increased demands on the network side as well as its increased capacity. Moreover, the upcoming 6G services will dramatically increase requirements on many network Key Performance Indicators versus 5G, such as peak data rates, latencies and with ultra-high reliability. 5G and beyond networks have to support a combination of several types of workloads stemming from a variety of use cases/verticals. These workloads can come and go and may even change dynamically during services lifetime. As a result, the derived requirement from the networks may change often and these changes may be significant. Therefore, the networks must constantly adapt to and anticipate changes, increasing thus dramatically the network complexity. The observation that certain trends in network behavior can be predicted and actions taken in anticipation, leads to the introduction of AI/ML. Actually there is huge potential for Artificial Intelligence (AI) to improve management and performance of Beyond 5G networks which are expected to be developed in the years to come. Indeed, AI/ML technologies offer the potential to efficiently address the challenges of complex 5G and beyond networks. Leveraging on the wide expertise of two multi-disciplinary research groups, The TRAINER project ambitiously aims at architecting and validating a converged an AI/ML empowered end-to-end network sustainable infrastructure towards the full deployment of beyond 5G networks towards 6G. In particular, the TRAINER solution will encompass different network segments (Core, optical Metro/Access, Mobile Edge Computing (MEC) servers/central data centers and 5G-RAN), different network technologies and business roles. The ambitious innovation that TRAINER will bring reside on the concept of having AI/ML distributed at all levels of the future networks, including AI/MLenabled end-to-end service orchestration, cognitive network management in SDN/NFV, LISP and RINA technology domains and even at optical data plane level for quality of transmission assurance and signal processing.


    Duration

    2021-2023


    Contract number

    PID2020-118011GB-C21

  • Description

    Leaving the current 4th generation of mobile communications behind, 5G will represent a disruptive paradigm shift integrating 5G Radio Access Networks (RANs), ultra-high capacity access/metro/core optical networks and intra-datacenter network and computational resources into a single converged 5G network infrastructure. Thanks to an extensive deployment of network virtualization techniques leveraged by Software-Defined Networking (SDN) and Network Function Virtualization (NFV) technologies, such a 5G network infrastructure will have to be capable of inter-connecting anything (people, things, processes, contents, etc.) anywhere, no matter the geographic location, and over a set of network services truly meeting their diverse communication requirements (e.g., in terms of bandwidth, latency, reliability, etc.). Furthermore, these network services will have to be orchestrated end-to-end over several network and IT resource segments with high scalability, dynamicity and reactivity upon unexpected traffic and resource state changes, all this in an energy-efficient fashion. The present coordinated project proposal ALLIANCE ambitiously aims at architecting, from top to bottom, a converged 5G-enabled network infrastructure satisfying those needs to effectively realize the envisioned upcoming Digital Society. Joining the long expertise of two multidisciplinary research teams, ALLIANCE will investigate the appropriateness of several networking solutions for 5G, such as SDN/NFV on top of an ultra-high capacity spatially and spectrally flexible all-optical network infrastructure, or the OpenOverlayRouter (OOR) and the clean-slate Recursive Inter-Network Architecture (RINA) over packet networks, including access, metro, core and datacentre networks. Evaluation activities will not only consist of theoretical and simulation-based results, but also experimental activities over representative network test-beds implementing the aforementioned networking solutions for 5G, as a way to completely assess their performance in real network scenarios. ALLIANCE relies on cognitive QoE-driven management and orchestration, which optimises level service quality without network resource over-provisioning. In particular, an ambitious goal of the ALLIANCE proposal is to design and implement a Knowledge-Defined Networking (KDN)-based orchestration layer, implementing Deep learning (DL) techniques toward optimal end-to-end service provisioning. Last but not least, on the RAN segment, efforts will also be devoted in ALLIANCE to investigate on novel graphene mmWave-THz antenna systems for their potential use in 5G, as well as protocols for applications like Wireless Network on Chip (WNoC). As a final coordinated task, some of the prototypes developed by the two ALLIANCE sub-projects will be integrated in an proof-of-concept, which will demonstrate the feasibility and functionality of the 5G-enabled ALLIANCE network infrastructure, and its composing networking solutions.


    Duration

    01/01/2018-31-12-2020 (36M)


    Contract number

    TEC2017-90034-C2-1-R

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