Secure Virtual Mobile Small Cells: A Stepping Stone Towards 6G

Rodriguez, J., Koudouridis, X., Gelabert, M., Tayyab, M., Bassoli, R., Fitzek, F.H.P., Torre, R., Abd-Alhameed, Raed, Sajedin, M., Elfergani, Issa T., Irum, S., Schulte, G., Diogo, P., Marzouk, F., de Ree, M., Mantas, G., Politis, I.

08 May 2021

Yes / As 5th Generation research reaches the twilight, the research community must go beyond 5G and look towards the 2030 connectivity landscape, namely 6G. In this context, this work takes a step towards the 6G vision by proposing a next generation communication platform, which aims to extend the rigid coverage area of fixed deployment networks by considering virtual mobile small cells (MSC) that are created on demand. Relying on emerging computing paradigms such as NFV (Network Function Virtualization) and SDN (Software Defined Networking), these cells can harness radio and networking capability locally reducing protocol signalling latency and overhead. These MSCs constitute an intelligent pool of networking resources that can collaborate to form a wireless network of MSCs providing a communication platform for localized, ubiquitous and reliable connectivity. The technology enablers for implementing the MSC concept are also addressed in terms of virtualization, lightweight wireless security, and energy efficient RF. The benefits of the MSC architecture towards reliable and efficient cell-offloading are demonstrated as a use-case. / This project has received funding from the European Union's H2020 research and innovation program under grant agreement H2020-MCSAITN- 2016-SECRET 722424 [2].

Mobile small cells

B5G

6G

Low-latency services

Network network-coding cooperation

Decentralized key management

Green power amplifier

D2D proximity services

Mobile relay nodes