References
- Ripple WJ, Wolf C, Newsome TM, et al. The climate emergency: 2020 in review. Sci Am. 2021 Accessed 30 November 2022 https://www.scientificamerican. com/article/the-climate-emergency-2020-in-review/.
- Zhong X, Liu Y, Xie K, et al. A local electricity and carbon trading method for multi-energy microgrids considering cross-chain interaction. Sensors. 2022;22(18):6935.
- Fu B, Chen M, Fei Z, et al. Research on the stackelberg game method of building micro-grid with electric vehicles. J Elect Eng Technol. 2021;16(3):1637–1649.
- Zhaoan F, Baochuan F, Xuefeng X, et al. Power charging management strategy for electric vehicles based on a stackelberg game. Intell Trans Syst. 2020;14(5):432–439.
- Zia MF, Benbouzid M, Elbouchikhi E, et al. Microgrid transactive energy: review, architectures, distributed ledger technologies, and market analysis. IEEE Access. 2020;8:19410–19432.
- Liu B, Wang M, Men J, et al. Microgrid trading game model based on blockchain technology and optimized particle swarm algorithm. IEEE Access. 2020;8:225602–225612.
- Chen Z, Guo W, Zhao R, et al. Deep learning optimization of microgrid economic dispatch and wireless power transmission using blockchain. In: Wirel commun mob comput. 2022:1–13: 2022.
- Zhao S, Zhu S, Wu Z, et al. Cooperative energy dispatch of smart building cluster based on smart contracts. Int J Electr Power Energy Syst. 2022;138:107896.
- Kemmoe VY, Stone W, Kim J, et al. Recent advances in smart contracts: a technical overview and state of the art. IEEE Access. 2020;8:117782–117801.
- van Leeuwen G, AlSkaif T, Gibescu M, et al. An integrated blockchain-based energy management platform with bilateral trading for microgrid communities. Appl Energy. 2020;263:114613.
- Duan Q, Quynh NV, Abdullah HM, et al. Optimal scheduling and management of a smart city within the safe framework. IEEE Access. 2020;8:161847–161861.
- Okoye MO, Yang J, Cui J, et al. A blockchain-enhanced transaction model for microgrid energy trading. IEEE Access. 2020;8:143777–143786.
- Hassan MU, Rehmani MH, Deal: CJ. Differentially private auction for blockchain-based microgrids energy trading. IEEE Trans Serv Comput. 2019;13(2):263–275.
- Zhao Y, He X, Zhang J, et al. Detection of intermittent faults based on an optimally weighted moving average t2 control chart with stationary observations. Automatica. 2021;123:109298.
- Zhao Y, He X, Zhou D, et al. Detection and isolation of wheelset intermittent over-creeps for electric multiple units based on a weighted moving average technique. IEEE trans Intell Transp Syst. 2020;229(6). DOI:10.1152/ajplegacy.1975.229.6.1726.
- Song JG, Kang ES, Shin HW, et al. A smart contract-based p2p energy trading system with dynamic pricing on ethereum blockchain. Sensors. 2021;21(6):1985.
- Andoni M, Robu V, Flynn D, et al. Blockchain technology in the energy sector: a systematic review of challenges and opportunities. Renew Sust Energ Rev. 2019;100:143–174.
- Afzal M, Huang Q, Amin W, et al. Blockchain enabled distributed demand side management in community energy system with smart homes. IEEE Access. 2020;8:37428–37439.
- Saxena S, Farag HE, Brookson A, et al. A permissioned blockchain system to reduce peak demand in residential communities via energy trading: a real-world case study. IEEE Access. 2020;9:5517–5530.
- Wu Z, Karimi HR, Dang C. A deterministic annealing neural network algorithm for the minimum concave cost transportation problem. IEEE Trans Neural Netw Learn Syst. 2019;31(10):4354–4366.
- Wu Z, Karimi HR, Dang C. An approximation algorithm for graph partitioning via deterministic annealing neural network. Neural Networks. 2019;117:191–200.
- Aloqaily M, Bouachir O, Ö Ö, et al. Synergygrids: blockchain-supported distributed microgrid energy trading. Peer Peer Netw Appl. 2022;15(2):884–900.
- Wang Y, Su Z, Li J, et al. Blockchain-based secure and cooperative private charging pile sharing services for vehicular networks. IEEE Trans Veh Technol. 2021;71(2):1857–1874.
- Chai H, Leng S, Zhang K, et al. Proof-of-reputation based-consortium blockchain for trust resource sharing in internet of vehicles. IEEE Access. 2019;7:175744–175757.
- Wang Y, Luan HT, Su Z, et al. A secure and efficient wireless charging scheme for electric vehicles in vehicular energy networks. IEEE Trans Veh Technol. 2021;71(2):1491–1508.
- Gayo-Abeleira M, Santos C, Fjr S, et al. Aperiodic two-layer energy management system for community microgrids based on blockchain strategy to be published in: applied energy. Applied Energy. 2022;324:119847.
- Nakamoto S. Bitcoin: A peer-to-peer electronic cash system. 2008. Accessed 27 September 2020. https://bitcoin.org/bitcoin.pdf .
- Zheng Z, Xie S, Dai HN, et al. Blockchain challenges and opportunities: a survey. Int J Web Grid serv. 2018;14(4):352–375.
- Perboli G, Musso S, Rosano M. Blockchain in logistics and supply chain: a lean approach for designing real-world use cases. IEEE Access. 2018;6:62018–62028.
- Zheng Z, Dai HN, Wu J. Blockchain intelligence: when blockchain meets artificial intelligence. arXiv preprint arXiv:191206485. 2019;229(6):1641–1648.
- Szabo N . Smart contracts Working paper; 1994. Accessed 20 September 2018. Available from: http://szabo.best.vwh.net/smart.contracts.html.
- Sikorski JJ, Haughton J, Kraft M. Blockchain technology in the chemical industry: machine-to-machine electricity market. Appl Energy. 2017;195:234–246.
- Buterin V . Ethereum white paper. GitHub Rep. 2013;1: 22–23.
- Li H, Xue W. A blockchain-based sealed-Bid e-auction scheme with smart contract and zero-knowledge proof. Secur Commun Netw. 2021;2021: 1–10.
- Ping J, Chen S, Zhang N, et al. Decentralized transactive mechanism in distribution network based on smart contract. Proc CSEE. 2017;37: 3682–3690.
- Tan W, Li L, Zhou Z, et al. Blockchain-based distributed power transaction mechanism considering credit management. Energy Reports. 2022;8:565–572.
- Debe M, Hasan HR, Salah K, et al. Blockchain-based energy trading in electric vehicles using an auctioning and reputation scheme. IEEE Access. 2021;9:165542–165556.
- Lohachab A, Garg S, Kang BH, et al. Performance evaluation of hyperledger fabric-enabled framework for pervasive peer-to-peer energy trading in smart cyber–physical systems. Future Gener Comput Syst. 2021;118:392–416.