Standardization of the Distributed Ledger Technology cybersecurity stack for power and energy applications

Sayed, 2019, Design and realization of an open-source and modular smart meter, Energy Sci. Eng., 7, 1405, 10.1002/ese3.361 Henderson, 2017, Electric power grid modernization trends, challenges, and opportunities, IEEE Power Energy Mag., 15 Kroposki, 2017, Grid modernization laboratory consortium - testing and verification, 238 Shapsough, 2015, Smart grid cyber security: Challenges and solutions, 170 Giglou, 2021, Defending against false data injection attack on demand response program: A bi-level strategy, Sustain. Energy Grids Netw., 27 Khazaei, 2021, Cyberattacks with limited network information leading to transmission line overflow in cyber-physical power systems, Sustain. Energy Grids Netw., 27 Tapscott, 2016, 348 Zhuang, 2021, Blockchain for cybersecurity in smart grid: A comprehensive survey, IEEE Trans. Ind. Inf., 17, 3, 10.1109/TII.2020.2998479 Mollah, 2021, Blockchain for future smart grid: A comprehensive survey, IEEE Internet Things J., 8, 18, 10.1109/JIOT.2020.2993601 Christidis, 2016, Blockchains and smart contracts for the internet of things, IEEE Access, 4, 2292, 10.1109/ACCESS.2016.2566339 Kaur, 2019, Enabling secure grid information sharing through hash calendar-based blockchain infrastructures, 200 Munsing, 2017, Blockchains for decentralized optimization of energy resources in microgrid networks, 2164 Mylrea, 2017, Blockchain for smart grid resilience: Exchanging distributed energy at speed, scale and security, 18 Mylrea, 2018, Keyless signature blockchain infrastructure: Facilitating NERC CIP compliance and responding to evolving cyber threats and vulnerabilities to energy infrastructure, 1 Cali, 2020, Energy informatics using the distributed ledger technology and advanced data analytics, 438 Andoni, 2019, Blockchain technology in the energy sector: A systematic review of challenges and opportunities, Renew. Sustain. Energy Rev., 100, 143, 10.1016/j.rser.2018.10.014 Sang, 2020, IEEE SA Blockchain in energy standardization framework: Grid and prosumer use cases, 1 IEEE Standard Association P2418.5 Working Group, 2020 Cali, 2019, Dlt / blockchain in transactive energy use cases segmentation and standardization framework, 1 GridWise Architecture Council, 2015 Gourisetti, 2020, Evaluation and demonstration of blockchain applicability framework, IEEE Trans. Eng. Manage., 67, 1142, 10.1109/TEM.2019.2928280 Song, 2000, Design of binary sequences with optimal frame synchronization property, 353 IEEE Standard Association, 2020 Marr, 2017 Yaga, 2018 Alofs, 2018 Gill, 2018 Castro, 2002, Practical Byzantine fault tolerance and proactive recovery, ACM Trans. Comput. Syst., 20, 398, 10.1145/571637.571640 Cachin, 2016 Putz, 2020, Detecting blockchain security threats, 70 Smart, 2021 Knudsen, 2021, Consensus in blockchain systems with low network throughput: A systematic mapping study, 15 Kaur, 2021, A research survey on applications of consensus protocols in blockchain, Secur. Commun. Netw., 2021 Kolokotronis, 2021 Singh, 2020, Blockchain smart contracts formalization: Approaches and challenges to address vulnerabilities, Comput. Secur., 88, 10.1016/j.cose.2019.101654 Wang, 2019, Corking by forking: Vulnerability analysis of blockchain, 829 Liu, 2019, Enabling clone detection for ethereum via smart contract birthmarks, 105 Güçlütürk, 2018 Barragan, 2021 Lourenço, 2020 Mayer, 2017 Gourisetti, 2019 Mosakheil, 2018, Security threats classification in blockchains, 141 Anwar, 2018 Acharya, 2019, 350 United States Environmental Protection Agenc (EPA), 2021 Wang, 2020, Blockchain-based data storage mechanism for industrial internet of things, Intell. Autom. Soft Comput., 26, 1157, 10.32604/iasc.2020.012174 CEN-CENELEC-ETSI Smart Grid Coordination Group, 2012 OWASP Foundation, 2020 Rahimi, 2014, From ISO to DSO: Imagining a new construct – an independent system operator for the distribution network, Fortnightly Mag. Rahimi, 2016, The changing electrical landscape: End-to-end power system operation under the transactive energy paradigm, IEEE Power Energy Mag., 14, 52, 10.1109/MPE.2016.2524966 Rahimi, 2018, Distribution management system for the grid of the future: A transactive system compensating for the rise in distributed energy resources, IEEE Electrif. Mag., 6, 84, 10.1109/MELE.2018.2816846 Rahimi, 2021, Grid-edge blockchain-based transactive energy platform design and implementation, IEEE Electrif. Mag., 9, 10.1109/MELE.2021.3093599 St. John, 2020 Goranovic, 2017, Blockchain applications in microgrids: An overview of current projects and concepts, 6153 Shareef, 2016, A review of the stage-of-the-art charging technologies, placement methodologies, and impacts of electric vehicles, Renew. Sustain. Energy Rev., 64, 403, 10.1016/j.rser.2016.06.033 Rinaldi, 2018, On the mobile communication requirements for the demand-side management of electric vehicles, Energies, 11, 10.3390/en11051220 Hall, 2017, Emerging best practices for electric vehicle charging infrastructure Mylrea, 2018, Blockchain for supply chain cybersecurity, optimization and compliance, 70 Saha, 2021, Integrating hardware security into a blockchain-based transactive energy platform, 1