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SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks

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SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks. / Zarakovitis, Charilaos; Klonidis, Dimitrios; Salazar, Zujany et al.
ARES 21: Proceedings of the 16th International Conference on Availability, Reliability and Security. New York: ACM, 2021. 108.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Zarakovitis, C, Klonidis, D, Salazar, Z, Prudnikova, A, Bozorgchenani, A, Ni, Q, Klitis, C, Guirgis, G, Cavalli, A, Sgouros, N, Makri, E, Lalas, A, Votis, K, Amponis, G & Mallouli, W 2021, SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks. in ARES 21: Proceedings of the 16th International Conference on Availability, Reliability and Security., 108, ACM, New York. https://doi.org/10.1145/3465481.3470092

APA

Zarakovitis, C., Klonidis, D., Salazar, Z., Prudnikova, A., Bozorgchenani, A., Ni, Q., Klitis, C., Guirgis, G., Cavalli, A., Sgouros, N., Makri, E., Lalas, A., Votis, K., Amponis, G., & Mallouli, W. (2021). SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks. In ARES 21: Proceedings of the 16th International Conference on Availability, Reliability and Security Article 108 ACM. https://doi.org/10.1145/3465481.3470092

Vancouver

Zarakovitis C, Klonidis D, Salazar Z, Prudnikova A, Bozorgchenani A, Ni Q et al. SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks. In ARES 21: Proceedings of the 16th International Conference on Availability, Reliability and Security. New York: ACM. 2021. 108 doi: 10.1145/3465481.3470092

Author

Zarakovitis, Charilaos ; Klonidis, Dimitrios ; Salazar, Zujany et al. / SANCUS : Multi-layers Vulnerability Management Framework for Cloud-native 5G networks. ARES 21: Proceedings of the 16th International Conference on Availability, Reliability and Security. New York : ACM, 2021.

Bibtex

@inproceedings{208ec1ca1c034eeb8bdec02b04d847e5,
title = "SANCUS: Multi-layers Vulnerability Management Framework for Cloud-native 5G networks",
abstract = "Security, Trust and Reliability are crucial issues in mobile 5G networks from both hardware and software perspectives. These issues are of significant importance when considering implementations over distributed environments, i.e., corporate Cloud environment over massively virtualized infrastructures as envisioned in the 5G service provision paradigm. The SANCUS1 solution intends providing a modular framework integrating different engines in order to enable next‐generation 5G system networks to perform automated and intelligent analysis of their firmware images at massive scale, as well as the validation of applications and services. SANCUS also proposes a proactive risk assessment of network applications and services by means of maximising the overall system resilience in terms of security, privacy and reliability. This paper presents an overview of the SANCUS architecture in its current release as well as the pilots use cases that will be demonstrated at the end of the project and used for validating the concepts.",
author = "Charilaos Zarakovitis and Dimitrios Klonidis and Zujany Salazar and Anna Prudnikova and Arash Bozorgchenani and Qiang Ni and Charalambos Klitis and George Guirgis and Ana Cavalli and Nicholas Sgouros and Eftychia Makri and Antonios Lalas and Konstantinos Votis and George Amponis and Wissam Mallouli",
year = "2021",
month = aug,
day = "17",
doi = "10.1145/3465481.3470092",
language = "English",
booktitle = "ARES 21",
publisher = "ACM",

}

RIS

TY - GEN

T1 - SANCUS

T2 - Multi-layers Vulnerability Management Framework for Cloud-native 5G networks

AU - Zarakovitis, Charilaos

AU - Klonidis, Dimitrios

AU - Salazar, Zujany

AU - Prudnikova, Anna

AU - Bozorgchenani, Arash

AU - Ni, Qiang

AU - Klitis, Charalambos

AU - Guirgis, George

AU - Cavalli, Ana

AU - Sgouros, Nicholas

AU - Makri, Eftychia

AU - Lalas, Antonios

AU - Votis, Konstantinos

AU - Amponis, George

AU - Mallouli, Wissam

PY - 2021/8/17

Y1 - 2021/8/17

N2 - Security, Trust and Reliability are crucial issues in mobile 5G networks from both hardware and software perspectives. These issues are of significant importance when considering implementations over distributed environments, i.e., corporate Cloud environment over massively virtualized infrastructures as envisioned in the 5G service provision paradigm. The SANCUS1 solution intends providing a modular framework integrating different engines in order to enable next‐generation 5G system networks to perform automated and intelligent analysis of their firmware images at massive scale, as well as the validation of applications and services. SANCUS also proposes a proactive risk assessment of network applications and services by means of maximising the overall system resilience in terms of security, privacy and reliability. This paper presents an overview of the SANCUS architecture in its current release as well as the pilots use cases that will be demonstrated at the end of the project and used for validating the concepts.

AB - Security, Trust and Reliability are crucial issues in mobile 5G networks from both hardware and software perspectives. These issues are of significant importance when considering implementations over distributed environments, i.e., corporate Cloud environment over massively virtualized infrastructures as envisioned in the 5G service provision paradigm. The SANCUS1 solution intends providing a modular framework integrating different engines in order to enable next‐generation 5G system networks to perform automated and intelligent analysis of their firmware images at massive scale, as well as the validation of applications and services. SANCUS also proposes a proactive risk assessment of network applications and services by means of maximising the overall system resilience in terms of security, privacy and reliability. This paper presents an overview of the SANCUS architecture in its current release as well as the pilots use cases that will be demonstrated at the end of the project and used for validating the concepts.

U2 - 10.1145/3465481.3470092

DO - 10.1145/3465481.3470092

M3 - Conference contribution/Paper

BT - ARES 21

PB - ACM

CY - New York

ER -