Published April 2021 | Version v1

Digital Twins for Intelligent Authorization in the B5G-Enabled Smart Grid

  • 1. ROR icon Universidad de Málaga
  • 2. University of Malaga

Description

Beyond fifth generation (B5G) communication networks and computation paradigms in the edge are expected to be integrated into power grid infrastructures over the coming years. In this sense, AI technologies will play a fundamental role to efficiently manage dynamic information flows of future applications, which impacts the authorization policies applied in such a complex scenario. This article studies how digital twins can evolve their context awareness capabilities and simulation technologies to anticipate faults or to detect cyber-security issues in real time, and update access control policies accordingly. Our study analyzes the evolution of monitoring platforms and architecture decentralization, including the application of machine learning and blockchain technologies in the smart grid, toward the goal of implementing autonomous and self-learning agents in the medium and long term. We conclude this study with future challenges on applying digital twins to B5G-based smart grid deployments.

Files

Digital Twins for Intelligent Authorization in the B5G-enabledSG.pdf

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Additional details

Identifiers

Funding

European Commission
CyberSec4Europe - Cyber Security Network of Competence Centres for Europe 830929
European Commission
SealedGRID - Scalable, trustEd, and interoperAble pLatform for sEcureD smart GRID 777996
Fundación BBVA
2019 Leonardo Grant for Researchers and Cultural Creators of the BBVA Foundation