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5G – Next Generation Communication Networks

 

Research and Innovation Actions

Two aspects that are complementing each other are in scope:

  • 5G technologies and systems to realize high-performance heterogeneous networks which have dynamic resource allocation capabilities, superior spectral efficiency performances and functions of supporting a very wide range of application requirements. The work focuses on interoperability across heterogeneous networking implementation, on the basis of agreement on the overall testing and evaluation methodologies and the identification of related evaluation criteria and parameters and usage scenarios. This work is expected to visibly contribute to the overall evaluation methodology of 5G technologies carried out by 3GPP. It includes both below and above 6GHz relevant frequency bands in the context of global interoperability scenarios.
  • 5G network to control heavy dynamicity, which change traffic volume and characteristic as well as traffic growth, with agile and flex

    Bold 5G initiatives in both EU and Japan open industrial collaboration prospects to further progress with the objective of developing common positions, standards and interoperable systems for critical networks and computing platforms. Proposals with balanced participation of EU and Japanese partners should make a substantial contribution to the identified themes indicating the benefits of a joint effort.

    Progress on standards related technologies and system approaches are needed to realise 5G radio access and include ultra-lean signalling design, new spectrum and access methods, massive MIMO, a new air interface, and SON. It also requires to further valorise the themes made in the first two EU-Japan coordinated calls with co-funding scheme between EC and MIC/NICT, to achieve high speed/high capacity dense local networks and user environments. Unified network management applying SDN/NFV techniques is directly applicable in the context of this challenge

    • Optimised exploitation of access resources through interoperability across a range of technologies for multiple applications in both dense and rural environments.
    • Development and demonstration of key enabling technologies for the future generations of integrated/heterogeneous access network systems.
    • Joint identification of standardization requirements and contribution to standardization bodies and fora, supporting global views on open standards and interoperability, with particular focus on 3GPP and WRC'19 developments. It includes a significant contribution to the testing and evaluation methodologies of 5G access technologies under 3GPP.
    • New basic technologies for network management. Implementation acceleration through agile relocation and flexible reconnection of virtual network functions (VFN) with real-time monitoring as proof of concepts.