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References constraints, and recommendations”. In:
Journal of Network and Computer Appli-
[1] American Cyber Defense Agency. Cyber- cations 209 (2023), p. 103540. issn: 1084-
Attack Against Ukrainian Critical Infras- 8045. doi: https://doi.org/10.1016/j.
tructure. 2021. url: https : / / www . jnca.2022.103540. url: https://www.
cisa.gov/news- events/ics- alerts/ sciencedirect.com/science/article/
ir - alert - h - 16 - 056 - 01 (visited on pii/S1084804522001813.
07/28/2010).
[8] Mohammad Kamrul Hasan et al. “Review
[2] Nicolas Falliere, Liam O Murchu, Eric on cyber-physical and cyber-security sys-
Chien, et al. “W32. stuxnet dossier”. In: tem in smart grid: Standards, protocols,
White paper, symantec corp., security re- constraints, and recommendations”. In:
sponse 5.6 (2011), p. 29. Journal of Network and Computer Appli-
[3] Nick Farid and Roghoyeh Salmeh. “Grid cations 209 (2023), p. 103540. issn: 1084-
Architecture Model for Smart Grid”. 8045. doi: https://doi.org/10.1016/j.
In: 2021 IEEE 12th Annual Information jnca.2022.103540. url: https://www.
Technology, Electronics and Mobile Com- sciencedirect.com/science/article/
munication Conference (IEMCON). 2021 pii/S1084804522001813.
IEEE 12th Annual Information Technol- [9] Rodrigo Hidalgo, Chad Abbey, and G´eza
ogy, Electronics and Mobile Communi- Jo´os. “A review of active distribution net-
cation Conference (IEMCON). Vancou- works enabling technologies”. In: IEEE
ver, BC, Canada: IEEE, Oct. 27, 2021, PES General Meeting. 2010, pp. 1–9. doi:
pp. 0871–0876. isbn: 978-1-66540-066-4. 10.1109/PES.2010.5590051.
doi: 10 . 1109 / IEMCON53756 . 2021 .
[10] Holm Hinners. “Control Strategies and
9623151. url: https : / / ieeexplore .
Reduced Models for the Smart Power
ieee.org/document/9623151/ (visited Cell”. PhD thesis. 2023.
on 06/19/2024).
[11] Mohsen Khalaf et al. “A Survey on Cyber-
[4] Daniel Mayorga Gonz´alez. “The Smart
Physical Security of Active Distribution
Power Cell Concept”. PhD thesis. Feb. 22, Networks in Smart Grids”. In: IEEE Ac-
2021.
cess 12 (2024), pp. 29414–29444. issn:
[5] Avi Gopstein et al. NIST framework and 2169-3536. doi: 10.1109/ACCESS.2024.
roadmap for smart grid interoperability 3364362. url: https : / / ieeexplore .
standards, release 4.0. NIST SP 1108r4. ieee.org/document/10430145/ (visited
Gaithersburg, MD: National Institute of on 04/08/2024).
Standards and Technology, Feb. 18, 2021,
[12] Silvia Marzal et al. “Current challenges
NIST SP 1108r4. doi: 10.6028/NIST.SP.
and future trends in the field of com-
1108r4. url: https://nvlpubs.nist.
munication architectures for microgrids”.
gov / nistpubs / SpecialPublications / In: Renewable and Sustainable Energy Re-
NIST . SP . 1108r4 . pdf (visited on views 82 (Feb. 2018), pp. 3610–3622.
05/31/2024).
issn: 13640321. doi: 10 . 1016 / j .
[6] Brij B Gupta and Tafseer Akhtar. “A rser . 2017 . 10 . 101. url: https : / /
survey on smart power grid: frameworks, linkinghub.elsevier.com/retrieve/
tools, security issues, and solutions”. In: pii / S1364032117314703 (visited on
Annals of Telecommunications 72 (Sept. 05/28/2024).
2017), pp. 1–33. doi: 10.1007/s12243- [13] Daniel Mayorga Gonzalez, Johanna
017-0605-4.
Myrzik, and Christian Rehtanz. “The
[7] Mohammad Kamrul Hasan et al. “Review smart power cell concept: mastering
on cyber-physical and cyber-security sys- TSO–DSO interactions for the se-
tem in smart grid: Standards, protocols, cure and efficient operation of future

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