@inproceedings{3194106,
    title = "5Growth: Secure and Reliable Network Slicing for Verticals",
    author = "Cunha, Vitor A. and Maroulis, Nikolaos and Papagianni, Chrysa and and Sacido, Javier and Jimenez, Manuel and Ubaldi, Fabio and Gharbaoui, and Molka and Chang, Chia-Yu and Koursiounipas, Nikolaos and Tomakh, and Konstantin and Corujo, Daniel and Barraca, Joao P. and Barmpounakis, and Sokratis and Kucherenko, Denys and Giorgetti, Alessio and Boddi, Andrea and and Valcarenghi, Luca and Kolodiazhnyi, Oleksii and Zabala, Aitor and and Salvat, Josep Xavier and Garcia-Saavedra, Andres",
    year = "2021",
    pages = "347-352",
    publisher = "IEEE Comput. Soc",
    booktitle = "2021 JOINT EUROPEAN CONFERENCE ON NETWORKS AND COMMUNICATIONS & 6G
SUMMIT (EUCNC/6G SUMMIT)",
    doi = "10.1109/EUCNC/6GSUMMIT51104.2021.9482536",
    abstract = "Network slicing is well-recognized as a core 5G technology to enable
heterogeneous vertical services sharing the same infrastructure. In this
context, the H2020 5Growth project extends baseline 5G management and
orchestration platforms to manage the life-cycle of real end-to-end,
reliable, and secure network slices with performance guarantees. In this
paper, we present 5Growth's approaches to (i) attain isolation across
network slices, (ii) provide secure interfaces towards third parties,
and (iii) exploit AI/ML to achieve reliability through automated anomaly
detection. In our quest towards validating full-fledged 5G pilots, we
demonstrate our slicing mechanisms in PoCs that include interacting with
ICT-17 infrastructure."
}