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This article explores the pivotal role of telecommunication in enhancing the reliability of energy grids. It highlights how telecommunication enables real-time monitoring, automation, and integration of renewable energy sources, thereby addressing the challenges of modern energy systems. Furthermore, the article examines the use of advanced analytics and predictive maintenance powered by telecommunication networks to prevent outages and optimize grid performance. Key challenges, including cybersecurity threats and implementation costs, are discussed alongside future prospects such as 5G and quantum communication technologies. Telecommunication emerges as a fundamental enabler of resilient, efficient, and sustainableenergy grids

  • Read count 15
  • Date of publication 05-01-2025
  • Main LanguageIngliz
  • Pages 34-36
English

This article explores the pivotal role of telecommunication in enhancing the reliability of energy grids. It highlights how telecommunication enables real-time monitoring, automation, and integration of renewable energy sources, thereby addressing the challenges of modern energy systems. Furthermore, the article examines the use of advanced analytics and predictive maintenance powered by telecommunication networks to prevent outages and optimize grid performance. Key challenges, including cybersecurity threats and implementation costs, are discussed alongside future prospects such as 5G and quantum communication technologies. Telecommunication emerges as a fundamental enabler of resilient, efficient, and sustainableenergy grids

Name of reference
1 1.Arsénio, A. M., & Silva, T. (2013). 18 Energy Efficiency and Failure Recovery Mechanisms for Communication Networks.Green Networking and Communications: ICT for Sustainability, 433.2.Cabrera-Tobar, A., Grimaccia, F., & Leva, S. (2023). Energy Resilience in Telecommunication Networks: A Comprehensive Review of Strategies and Challenges.Energies,16(18), 6633.3.Erol-Kantarci, M., & Mouftah, H. T. (2014). Energy-efficient information and communication infrastructures in the smart grid: A survey on interactions and open issues.IEEE Communications Surveys & Tutorials,17(1), 179-197.4.Moslehi, K., & Kumar, R. (2010).A reliability perspective of the smart grid. IEEE transactions on smart grid, 1(1), 57-64.5.Taft, J. D., & Becker-Dippmann, A. S. (2015).The emerging interdependence of the electric power grid & information and communication technology(No. PNNL-24643). Pacific Northwest National Lab.(PNNL), Richland, WA (United States).
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