File | Year | Authors | Affiliations | Country | Authors Keywords |
---|---|---|---|---|---|
A Blockchain and Internet of Things Based Architecture Design for Energy Transaction.pdf | 2020 | You-jin Song 1 and Jae-Kyu Lee 2 | Department of Technology Management Cooperation, Dongguk University at | South Korea | Energy IoT, blockchain, smart contract, energy cloud, fog computing |
A BLOCKCHAIN BASED ELECTRIC VEHICLE SMART CHARGING SYSTEM WITH FLEXIBILITY.pdf | 2020 | Okwuibe, GC; Li, ZG; Brenner, T; Langniss, O | Gyeongju, South Korea | GERMANY | Electric Vehicle; Blockchain; Smart Contract; Smart Charging; Charging Point; Distributed Applications; Smart grid |
A Blockchain based Framework for IoT Security.pdf | 2021 | Premkumar R, Sathya Priya S | Hindustan Institute of Technology and Science, Padur, Chennai 603103, India | INDIA | Blockchain; IoT; Security;Lightweight Blockchain |
A BLOCKCHAIN BASED PEER-TO-PEER TRADING FRAMEWORK INTEGRATING ENERGY AND CARBON MARKETS.pdf | 2020 | Hua W., Jiang J., Sun H., Wu J. | Department of Engineering, Durham University, Durham, DH1 3LE, United Kingdom; Department of Mathematics, Physics and Electrical Engineering, University of Northumbria, Newcastle, NE1 8ST, United Kingdom; Institute of Energy, School of Engineering, Cardiiff University, Cardiiff, CF24 3AA, United Kingdom | UNITED KINGDOM | Blockchain; Carbon mitigation; Peer-to-peer energy trading; Renewable energy sources; Smart contract |
A BLOCKCHAIN BASED PRIVACY-PRESERVING SYSTEM FOR ELECTRIC VEHICLES THROUGH LOCAL COMMUNICATION.pdf | 2020 | A. S. Yahaya; N. Javaid; R. Khalid; M. Imran; N. Naseer | COMSATS University Islamabad,Islamabad,Pakistan,44000; COMSATS University Islamabad,Islamabad,Pakistan,44000; COMSATS University Islamabad,Islamabad,Pakistan,44000; King Saud University,College of Computer and Information Sciences,Riyadh,Saudi Arabia,11451; Alfaisal University,College of Engineering,Saudi Arabia | PAKISTAN SAUDI ARABIA | Blockchain;EVs;Optimization;Local Energy Market;Decentralization;Peer-to-peer |
A BLOCKCHAIN CONSENSUS PROTOCOL BASED ON DEDICATED TIME-MEMORY-DATA TRADE-OFF.pdf | 2020 | MIODRAG J. MIHALJEVIĆ | Mathematical Institute, Serbian Academy of Sciences and Arts, 11000 Belgrade, Serbia | SERBIA | Blockchain, consensus, proof of work, proof of memory, security |
A BLOCKCHAIN CONSTRUCT FOR ENERGY TRADING AGAINST SYBIL ATTACKS.pdf | 2019 | U. Asfia; V. Kamuni; S. Sutavani; A. Sheikh; S. Wagh; N. M. Singh | Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA | INDIA | Blockchain;Sybil Attack;PoW Consensus;Electric Vehicle |
A Blockchain Platform for the Decentralized Operation of Active Distribution Networks.pdf | 2021 | Kappos I., Kouveliotis-Lysikatos I., Hatziargyriou N. | National Technical University of Athens, Sch. of Elec. Comp. Engr., Athens, Greece; Kth - Royal Institute of Technology, Sch. of Elec. Engr. Comp. Science, Stockholm, Sweden | GREECE SWEDEN | active distribution grids; Blockchain; decentralized economic dispatch; Ethereum |
A BLOCKCHAIN SOLUTION FOR OPERATIONAL PARAMETERS MONITORING PLATFORM FOR DC MICROGRIDS.pdf | 2020 | Kappos I., Kouveliotis-Lysikatos I., Hatziargyriou N. | National Technical University of Athens, Sch. of Elec. Comp. Engr., Athens, Greece; Kth - Royal Institute of Technology, Sch. of Elec. Engr. Comp. Science, Stockholm, Sweden | GREECE SWEDEN | active distribution grids; Blockchain; decentralized economic dispatch; Ethereum |
A Blockchain-based Approach for Optimal Energy Dispatch and Fault Reporting in P2P Microgrid.pdf | 2021 | Roshan Singh, Pranav Singh, Sukumar Nandi | Department of Computer Science and Engineering Indian Institute of Technology Guwahati, India Department of Computer Science and Engineering Central Institute of Technology Kokrajhar, India | INDIA | P2P Microgrids, Energy Management, Blockchain |
A BLOCKCHAIN-BASED ARCHITECTURE FOR SECURE AND TRUSTWORTHY OPERATIONS IN THE INDUSTRIAL INTERNET OF THINGS.pdf | 2021 | Shahid Latif a, Zeba Idrees a, Jawad Ahmad b, Lirong Zheng a,∗, Zhuo Zou | State Key Laboratory of ASIC and System, School of Information Science and Engineering, Fudan University, Shanghai, China b School of Computing, Edinburgh Napier University, Edinburgh EH11 4DY, UK | CHINA UNITED KINGDOM | Blockchain Cybersecurity Distributed ledger Industrial Internet of Things Smart industry |
A BLOCKCHAIN-BASED ARCHITECTURE FOR STABLE AND TRUSTWORTHY SMART GRID.pdf | 2019 | Yuhong Lia,b,*, Rahim Rahmanib, Nicolas Fouassierc, Peik Stenlundc, Kun Ouyang | State Key Laboratory of Networking and Switching Technology, Beijing University of Posts and Telecommunications, Beijing, 100876, China bDepartment of Computer and System Sciences, Stockholm University, Sweden cLuminGo AB, Universitetsvägen 8, 11418 Stockholm, Sweden | CHINA SWEDEN | Smart Grid; Blockchain; Dynamic Electricity Price; Smart Contract |
A BLOCKCHAIN-BASED AUTHORIZATION SYSTEM FOR TRUSTWORTHY RESOURCE MONITORING AND TRADING IN SMART COMMUNITIES.pdf | 2018 | Ramon Alcarria 1,* , Borja Bordel 2 , Tomás Robles 2 , Diego Martín 2 and Miguel-Ángel Manso-Callejo 1 | Departamento de Ingeniería Topográfica y Cartografía, Universidad Politécnica de Madrid, UPM Campus Sur, Km 7.5 de la Autovía de Valencia, 28031 Madrid, Spain; m.manso@upm.es 2 Departamento de Ingeniería de Sistemas Telemáticos, Universidad Politécnica de Madrid, Avenida Complutense no. 30, 28040 Madrid, Spain; bbordel@dit.upm.es (B.B.); tomas.robles@upm.es (T.R.); diego.martin.de.andres@upm.es (D.M.) | SPAIN | resource monitoring; prosumer; blockchain; trading; resource auction; smart communities; power consumption; water consumption |
A BLOCKCHAIN-BASED DECENTRALIZED ENERGY MANAGEMENT IN A P2P TRADING SYSTEM.pdf | 2020 | Rabiya Khalid1, Nadeem Javaid1,∗, Sakeena Javaid1, Muhammad Imran2 and Nidal Naseer3 | 1Department of Computer Science, COMSATS University Islamabad, Islamabad 44000, Pakistan 2College of Computer and Information Sciences, King Saud University, Riyadh 11451, Saudi Arabia 3College of Engineering, Alfaisal University, Saudi Arabia | SAUDI ARABIA | |
A BLOCKCHAIN-BASED DISTRIBUTED CONTROLLABLE ELECTRICITY TRANSACTION MATCH SYSTEM.pdf | 2020 | Songpu Ai, Jian Guo, Chunming Rong, Diankai Hu, Yunpeng Jiang, Junwei Cao | Energy Internet Lab MingByte Technology (Qingdao) Co., Ltd Qingdao, China aisp@mingbyte.com Research Institute of Information Technology Tsinghua University Beijing, China guoj2019@tsinghua.edu.cn Department of Electrical Engineering and Computer Science University of Stavanger Stavanger, Norway chunming.rong@uis.no Energy Internet Lab MingByte Technology (Qingdao) Co., Ltd Qingdao, China hudk@mingbyte.com Energy Internet Lab MingByte Technology (Qingdao) Co., Ltd Qingdao, China jiangyp@mingbyte.com Beijing National Research Center for Information Science and Technology Tsinghua University Beijing, China jcao@tsinghua.edu.cn | CHINA NORWAY | blockchain; distributed electricity transaction match; regional energy internet |
A BLOCKCHAIN-BASED DISTRIBUTED NON-COOPERATIVE TRANSACTIVE ENERGY MARKET.pdf | 2019 | Li H.A., Nair N.-K.C. | University of Auckland, Department of Electrical and Computer Engineering, New Zealand | NEW ZEALAND | blockchain; distributed generation; microgrid market; multiagent system; Nash equilibrium; Transactive energy market |
A BLOCKCHAIN-BASED DOUBLE-SIDED AUCTION PEER-TO-PEER ELECTRICITY MARKET FRAMEWORK.pdf | 2020 | Okwuibe, GC; Zade, M; Tzscheutschler, P; Hamacher, T; Wagner, U | Technical University of Munich; Technical University of Munich; Technical University of Munich Germany | GERMANY | peer-to-peer; blockchain; smart contract; energy trading; token (TEC) |
A BLOCKCHAIN-BASED ENERGY TRADING PLATFORM FOR SMART HOMES IN A MICROGRID.pdf | 2018 | Kang E.S., Pee S.J., Song J.G., Jang J.W. | Department of Electronic Engineering, Sogang University, Seoul, South Korea | SOUTH KOREA | blockchain; energy trade; ethereum; internet of things; microgrid; network security; smart contract; smart home |
A BLOCKCHAIN-BASED FLEXIBILITY MARKET PLATFORM FOR EV FLEETS.pdf | 2020 | Garrido, GM; Miehle, D; Luckow, A; Matthes, F | Technical University of Munich; BMW AG Germany | GERMANY | Blockchain; Charging Stations; Electric Vehicle; Electricity Market; Smart Contracts |
A BLOCKCHAIN-BASED FOG-ENABLED ENERGY CLOUD IN INTERNET OF THINGS.pdf | 2020 | You-jin Song1 and Jae-Kyu Lee2 | Department of Techno-Management Cooperation, Dongguk University at Gyeongju, S. Korea | South Korea | Energy IoT, blockchain, smart contract, energy cloud, fog computing |
A BLOCKCHAIN-BASED FRAMEWORK FOR ENERGY TRADING BETWEEN SOLAR POWERED BASE STATIONS AND GRID.pdf | 2020 | Garrido, GM; Miehle, D; Luckow, A; Matthes, F | Technical University of Munich; BMW AG Germany | GERMANY | Blockchain; Charging Stations; Electric Vehicle; Electricity Market; Smart Contracts |
A BLOCKCHAIN-BASED FRAMEWORK FOR LIGHTWEIGHT DATA SHARING AND ENERGY TRADING IN V2G NETWORK.pdf | 2020 | V. Hassija; V. Chamola; S. Garg; D. N. G. Krishna; G. Kaddoum; D. N. K. Jayakody | Department of CSE and IT, Jaypee Institute of Information Technology, Noida, India; Department of Electrical and Electronics Engineering, Birla Institute of Technology and Science-Pilani, Pilani Campus, India; Electrical Engineering Department, ??cole de technologie sup??rieure, Université du Québec, Montréal, QC, Canada; Department of CSE and IT, Jaypee Institute of Information Technology, Noida, India; Electrical Engineering Department, ??cole de technologie sup??rieure, Université du Québec, Montréal, QC, Canada; School of Computer Science and Robotics, National Research Tomsk Polytechnic University, Tomsk, Russia | CANADA INDIA RUSSIA | Directed acyclic graph;vehicle-to-grid;energy trading;distributed applications;consensus;smart grid;blockchain |
A BLOCKCHAIN-BASED INFRASTRUCTURE FOR RELIABLE AND COST-EFFECTIVE IOT-AIDED SMART GRIDS.pdf | 2019 | Lombardi F., Aniello L., De Angelis S., Margheri A., Sassone V. | University of Southampton, United Kingdom | UNITED KINGDOM | Blockchain; IoT security; Smart contract; Smart meter; Transactive energy |
A BLOCKCHAIN-BASED LOAD BALANCING IN DECENTRALIZED HYBRID P2P ENERGY TRADING MARKET IN SMART GRID.pdf | 2020 | R. Khalid; N. Javaid; A. Almogren; M. U. Javed; S. Javaid; M. Zuair | Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Computer Science Department, Chair of Cyber Security, College of Computer and Information Sciences, King Saud University, Riyadh, Saudi Arabia; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Chair of Cyber Security, Computer Engineering Department, College of Computer and Information Sciences, King Saud University, Riyadh, Saudi Arabia | PAKISTAN SAUDI ARABIA | Blockchain;consumers;energy trading;load;PAR;power;prosumers;security |
A BLOCKCHAIN-BASED PEER-TO-PEER TRADING SCHEME COUPLING ENERGY AND CARBON MARKETS.pdf | 2019 | W. Hua; H. Sun | Durham University, Durham, U.K.; Durham University, Durham, U.K. united kingdom | UNITED KINGDOM | blockchain;decentralized energy trading;low carbon;distributed energy sources;smart grids |
A BLOCKCHAIN-BASED PLATFORM FOR EXCHANGE OF SOLAR ENERGY LABORATORY-SCALE IMPLEMENTATION.pdf | 2018 | Pipattanasomporn, M; Kuzlu, M; Rahman, S | Virginia Polytechnic Institute & State University United States | UNITED STATES | Blockchain; Hyperledger; P2P trading; Solar PV |
A BLOCKCHAIN-BASED PRIVACY-FRIENDLY RENEWABLE ENERGY COMMUNITY.pdf | 2020 | Cejka, S; Zeilinger, F; Veseli, A; Holzleitner, MT; Stefan, M | Siemens AG; Johannes Kepler University Linz; Austrian Institute of Technology (AIT) | AUSTRIA | Energy Community; Privacy; Blockchain; Clean Energy Package; Energy Transition; Energy Efficiency |
A BLOCKCHAIN-BASED PRIVACY-PRESERVING MECHANISM WITH AGGREGATOR AS COMMON COMMUNICATION POINT.pdf | 2020 | Yahaya A.S., Javaid N., Khalid R., Imran M., Guizani M. | Comsats University Islamabad, Islamabad, 44000, Pakistan; King Saud University, College of Computer and Information Sciences, Riyadh, 11451, Saudi Arabia | PAKISTAN SAUDI ARABIA | Blockchain; Energy Allocation; Energy Trading; Fair Allocation; Incentive Mechanism; Privacy; Reputation; Security |
A BLOCKCHAIN-BASED RENEWABLE ENERGY INVESTMENT MANAGEMENT PLATFORM DECENTRALIZED SUSTAINABLE DEVELOPMENT DESDEV.pdf | 2020 | Werapun W., Arpornthip T., Sangiamkul E., Wetprasit R., Karode T. | College of Computing, Prince of Songkla University, Phuket, Thailand; Faculty of Technology and Environment, Prince of Songkla University, Phuket, Thailand; Andaman Environment and Natural Disaster Research Center, Prince of Songkla University, Phuket, Thailand | THAILAND | Blockchain; Revenue Sharing; Security Token; Smart Contract |
A BLOCKCHAIN-BASED SMART CONTRACT TRADING MECHANISM FOR ENERGY POWER SUPPLY AND DEMAND NETWORK.pdf | 2019 | Hu, W.a, Hu, Y.W.a,*, Yao, W.H.a, Lu, W.Q.a, Li, H.H.a, Lv, Z.W.a | School of Economics and Management, Shanghai University of Electric Power, Shanghai, P.R. China | CHINA | Electric energy; Energy power supply and demand network (EPSDN); Blockchain; Smart contract; Encourage‐real‐quotation (ERQ) rule; Power transaction |
A BLOCKCHAIN-BASED SMART GRID MODEL FOR RURAL ELECTRIFICATION IN INDIA.pdf | 2020 | V. Kulkarni; K. Kulkarni | Indian Institute of Technology,Dept of Computer Science and Engg.,Guwahati,India; PVG’s College of Engineering and Technology,Dept of Electronics and Telecomm. Engg.,Pune,India | INDIA | Rural Electrification;Smart Grids;Blockchain |
A BLOCKCHAIN-BASED SMART GRID TOWARDS SUSTAINABLE LOCAL ENERGY MARKETS.pdf | 2017 | Mengelkamp E., Notheisen B., Beer C., Dauer D., Weinhardt C. | Karlsruhe Institute of Technology, IISM, Fritz-Erler-Str. 23, Karlsruhe, 76131, Germany; FZI Forschungszentrum Informatik, Haid-und-Neu-Str. 10-14, Karlsruhe, 76131, Germany | GERMANY | Blockchain; Decentralization; Local energy markets; Market design |
A BLOCKCHAIN-BASED TRADING MATCHING SCHEME IN ENERGY INTERNET.pdf | 2020 | Lu X., Guan Z. | School of Control and Computer Engineering, North China Electric Power University, Beijing, China | CHINA | Blockchain; Energy internet; Privacy protection; Trading matching |
A BLOCKCHAIN-ENABLED DECENTRALIZED ENERGY TRADING MECHANISM FOR ISLANDED NETWORKED MICROGRIDS.pdf | 2020 | T. M. Masaud; J. Warner; E. F. El-Saadany | Computer Sciences and Electrical Engineering Department, Marshall University, Huntington, WV, USA; Computer Sciences and Electrical Engineering Department, Marshall University, Huntington, WV, USA; EECS Department, Advanced Power and Energy Center, Khalifa University, Abu Dhabi, United Arab Emirates | UNITED ARAB EMIRATES | Networked microgrids;smart contracts;blockchain;energy trading |
A Blockchain-Enabled Ecosystem for Distributed Electricity Trading in Smart City.pdf | 2021 | J. Guo; X. Ding; W. Wu | Department of Computer Science, Erik Jonsson School of Engineering and Computer Science, University of Texas at Dallas, Richardson, TX, USA; School of Information, Renmin University of China, Beijing, China; Department of Computer Science, Erik Jonsson School of Engineering and Computer Science, University of Texas at Dallas, Richardson, TX, USA | CHINA | Blockchain;credit-based Proof of Work (PoW);distributed electricity trading;smart city;Stackelberg game |
A Blockchain-Enabled Multi-Settlement Quasi-Ideal Peer-to-Peer Trading Framework.pdf | 2021 | AlAshery, MK; Yi, ZH; Shi, D; Lu, X; Xu, CL; Wang, ZW; Qiao, W | University of Nebraska System; University of Nebraska Lincoln; State Grid Corporation of China | CHINA | Peer-to-peer computing; Contracts; Internet of Things; Biological system modeling; Economics; Electric potential; Blockchain; electricity markets; energy community; energy trading; peer-to-peer energy trading; transactive energy; Vickrey-Clarke-Groves |
A BLOCKCHAIN-ENABLED SECURE POWER TRADING MECHANISM FOR SMART GRID EMPLOYING WIRELESS NETWORKS.pdf | 2020 | Z. Liu; D. Wang; J. Wang; X. Wang; H. Li | College of Information Science and Engineering, Northeastern University, Shenyang, China; College of Information Science and Engineering, Northeastern University, Shenyang, China; College of Information Science and Engineering, Northeastern University, Shenyang, China; School of Humanities and Law, Northeastern University, Shenyang, China; School of Mechanical Engineering, Hubei University of Automotive Technology, Shiyan, China | CHINA | Wireless network;blockchain;security;power trading mechanism;smart grid |
A blockchain-enabled secured fault allocation in smart grids based on μPMUs and UT.pdf | 2021 | ||||
A BLOCKCHAIN-ENHANCED TRANSACTION MODEL FOR MICROGRID ENERGY TRADING.pdf | 2017 | M. Onyeka Okoye; J. Yang; J. Cui; Z. Lei; J. Yuan; H. Wang; H. Ji; J. Feng; C. Ezeh | School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; Science and Technology Communication Department, State Grid Liaoning Electric Power Supply Company Ltd., Shenyang, China; Science and Technology Communication Department, State Grid Liaoning Electric Power Supply Company Ltd., Shenyang, China; School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; School of Electrical Engineering, Shenyang University of Technology, Shenyang, China; Software College, Northeastern University, Shenyang, China | CHINA | Blockchain transaction;block transaction speed;microgrid;prosumers;transaction permission protocol |
A Blockchain-Supported Framework for Charging Management of Electric Vehicles.pdf | 2021 | Dorokhova, M; Vianin, J; Alder, JM; Ballif, C; Wyrsch, N; Wannier, D | Ecole Polytechnique Federale de Lausanne; University of Applied Sciences & Arts Western Switzerland | SWITZERLAND | blockchain; electric vehicles; Ethereum; electric vehicle charging; smart community |
A BLOCK-FREE DISTRIBUTED LEDGER FOR P2P ENERGY TRADING CASE WITH IOTA.pdf | 2019 | Joon Park1, Ruzanna Chitchyan1(B), Anastasia Angelopoulou2, and Jordan Murkin | 1 University of Bristol, Bristol BS8 1UB, UK {jp17807,r.chitchyan,jordan.murkin}@bristol.ac.uk 2 Columbus State University, Columbus, GA, USA angelopoulou anastasia@columbusstate.edu | UNITED STATES UNITED KINGDOM | Blockchain · Peer to peer energy trading platform · DAG-based distributed ledger · Block-free ledger · IOTA · Agent-based simulation |
A COMMUNICATION SCHEME FOR BLOCKCHAIN BASED PEER TO PEER ENERGY TRADING.pdf | 2020 | Islam, SN; Mahmud, MA; Oo, AMT | Deakin University Australia | AUSTRALIA | Communication scheme; peer to peer energy trading; home energy management system; decode-and-forward; error performance |
A CONSENSUS AND INCENTIVE PROGRAM FOR CHARGING PILES BASED ON CONSORTIUM BLOCKCHAIN.pdf | 2018 | Q. He; Y. Xu; Y. Yan; J. Wang; Q. Han; L. Li | State Grid Electronic Commerce Co., LTD. Beijing 100053, China; State Grid Electronic Commerce Co., LTD. Beijing 100053, China; State Grid Zhejiang Electric Power Company, Hangzhou 310007, China; State Grid Electronic Commerce Co., LTD. Beijing 100053, China; State Grid Electronic Commerce Co., LTD. Beijing 100053, China; State Grid Electronic Commerce Co., LTD. Beijing 100053, China | CHINA | Charging pile;consortium blockchain;energy internet;payment solution;power profit bean |
A Cost-Efficient-Based Cooperative Allocation of Mining Devices and Renewable Resources Enhancing Blockchain Architecture.pdf | 2021 | Mohamed, MA; Mirjalili, S; Dampage, U; Salmen, SH; Obaid, SA; Annuk, A | Egyptian Knowledge Bank (EKB); Minia University; Torrens University Australia; Yonsei University; General Sir John Kotelawala Defence University; King Saud University; Estonian University of Life Sciences | AUSTRALIA EGYPT ESTONIA | smart grid; blockchain technology; modified reconfiguration of miners; distributed generation resources; unscented transform; intelligent priority selection method |
A credible transfer method of cross-chain assets based on DID and VC.pdf | 2021 | Xiaoyi Wang Weiwei Qiu Lei Zeng Hongkai Wang Yiyang Yao Dong He | DataMesh Labs Research and Development Center Hangzhou Qulian Technology Co., Ltd. Hangzhou, China Dept. of Govt. & Enterprise Business Hangzhou Qulian Technology Co., Ltd. Hangzhou, China Hangzhou Qulian Technology Co., Ltd. Hangzhou, China | CHINA | blockchain, credible transfer, cross-chain assets |
A cross-country comparison of compensation mechanisms for distributed photovoltaics in the Philippines, Thailand, and Vietnam.pdf | 2021 | Junlakarn, S; Kittner, N; Tongsopit, S; Saelim, S | Chulalongkorn University; University of North Carolina; University of North Carolina Chapel Hill; University of North Carolina; University of North Carolina Chapel Hill; University of California System; University of California Davis united states Thailand | THAILAND UNITED STATES | Distributed photovoltaics; Southeast Asia; Solar policy; Compensation mechanisms; Equity |
A Crypto-Token Based Charging Incentivization Scheme for Sustainable Light Electric Vehicle Sharing.pdf | 2021 | K. Wittek; S. Finke; N. Schelte; N. Pohlmann; S. Severengiz | Institute for Internet Security, Westphalian University of Applied Sciences, RWTH Aachen University,Gelsenkirchen,Germany; Bochum University of Applied Sciences,Sustainable Technologies Laboratory,Bochum,Germany; Bochum University of Applied Sciences,Sustainable Technologies Laboratory,Bochum,Germany; Institute for Internet Security, Westphalian University of Applied Sciences, RWTH Aachen University,Gelsenkirchen,Germany; Bochum University of Applied Sciences,Sustainable Technologies Laboratory,Bochum,Germany | GERMANY | sharing economy;micromobility;scooter;light electric vehicles;solar charging stations;blockchain;distributed ledger technology;cryptotokens;ethereum |
A CYBER-PHYSICAL PLATFORM FOR SIMULATING ENERGY TRANSACTIONS IN LOCAL ENERGY MARKETS.pdf | 2019 | Galici, M; Ghiani, E; Troncia, M; Pisano, G; Pilo, F | University of Cagliari Italy | ITALY | local electricity market; smart distribution networks; virtual power plant; cyber physical systems; blockchain |
A Data-Driven Approach for Blockchain-Based Smart Grid System.pdf | 2021 | Z. Zeng; M. Dong; W. Miao; M. Zhang; H. Tang | Information and Telecommunication Branch, State Grid Jiangsu Electric Power Company, Nanjing, China; Tsinghua Wuxi Research Institute of Applied Technologies, Wuxi, China; Information and Telecommunication Branch, State Grid Jiangsu Electric Power Company, Nanjing, China; Information and Telecommunication Branch, State Grid Jiangsu Electric Power Company, Nanjing, China; Information and Telecommunication Branch, State Grid Jiangsu Electric Power Company, Nanjing, China | CHINA | Smart grid;LEM;P2P trading;blockchain |
A DECENTRALIZED AUTONOMOUS ECOSYSTEM FOR PEER-TO-PEER CLEAN ENERGY TRADE.pdf | 2020 | H. El BABA; A. Derhem; H. Al-Hindwan; V. PANGRACIOUS | American University in Dubai,School of Engineering, Electrical and Computer Engineering Department,28282, Dubai,United Arab Emirates; American University in Dubai,School of Engineering, Electrical and Computer Engineering Department,28282, Dubai,United Arab Emirates; American University in Dubai,School of Engineering, Electrical and Computer Engineering Department,28282, Dubai,United Arab Emirates; American University in Dubai,School of Engineering, Electrical and Computer Engineering Department,28282, Dubai,United Arab Emirates | UNITED ARAB EMIRATES | |
A Decentralized Electricity Trading Framework -DETF- for Connected EVs A Blockchain and Machine Learning for Profit Margin Optimization.pdf | 2021 | Said, D | University of Ottawa Canada | CANADA | Blockchain; Power markets; Smart contracts; Biological system modeling; Peer-to-peer computing; Profitability; Servers; Blockchain; connected electric vehicle; decentralized energy trading; decentralized ledger technology; distributed data; game theoretic; machine learning (ML); peer-to-peer (P2P) transactions; profit margin; smart contract |
A DECENTRALIZED ELECTRICITY TRANSACTION MODE OF MICROGRID BASED ON BLOCKCHAIN AND CONTINUOUS DOUBLE AUCTION.pdf | 2018 | Wang, J; Wang, QG; Zhou, NC | Chongqing University china | CHINA | microgrid market; blockchain; continuous double auction; adaptive aggressiveness strategy |
A DECENTRALIZED P2P ELECTRICITY MARKET MODEL FOR MICROGRIDS.pdf | 2018 | Sabounchi, M; Wei, J | United States | UNITED STATES | P2P Electricity Market; Price of Anarchy; Blockchain; Electricity Market; Aggregator; Distributed Energy Resources (DERs) |
A DECENTRALIZED SYSTEM FOR GREEN ENERGY DISTRIBUTION IN A SMART GRID.pdf | 2020 | Talat R., Muzammal M., Qu Q., Zhou W., Najam-Ul-Islam M., Bamakan S.M.H., Qiu J. | Faculty of Engineering Sciences, Bahria Univ., Islamabad, 44000, Pakistan; Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen, 518055, China; Dept. of Management, Yazd Univ., Yazd, 98195-741, Iran; Faculty of Management, Dalian Univ. of Technology, Dalian, 116024, China | CHINA IRAN PAKISTAN | |
A DESIGN FOR A SECURE ENERGY MARKET TRADING SYSTEM IN A NATIONAL WHOLESALE ELECTRICITY MARKET.pdf | 2020 | A. D. Tesfamicael; V. Liu; M. Mckague; W. Caelli; E. Foo | School of Computer Science, Queensland University of Technology, Brisbane, QLD, Australia; School of Computer Science, Queensland University of Technology, Brisbane, QLD, Australia; School of Computer Science, Queensland University of Technology, Brisbane, QLD, Australia; School of Computer Science, Queensland University of Technology, Brisbane, QLD, Australia; School of Information and Communication Technology, Griffith University, Brisbane, QLD, Australia | AUSTRALIA | Data security;distributed computing;power systems security |
A DISTRIBUTED ELECTRICITY TRADING SYSTEM IN ACTIVE DISTRIBUTION NETWORKS BASED ON MULTI-AGENT COALITION AND BLOCKCHAIN.pdf | 2019 | Luo, FJ; Dong, ZY; Liang, GQ; Murata, J; Xu, Z | University of Sydney; University of New South Wales Sydney; Chinese University of Hong Kong; Chinese University of Hong Kong, Shenzhen; Kyushu University; Hong Kong Polytechnic University | HONG KONG | Active distribution network; multi-agent coalition; prosumer; Blockchain; transactive grid; power market |
A DISTRIBUTED ENERGY TRADING AUTHENTICATION MECHANISM BASED ON A CONSORTIUM BLOCKCHAIN.pdf | 2019 | Che, Z; Wang, Y; Zhao, JJ; Qiang, Y; Ma, Y; Liu, JH | Taiyuan University of Technology; Taiyuan University of Technology; Lvliang University china | CHINA | energy internet; distributed; renewable energy; blockchain; transaction authentication; Hyperledger Fabric |
A DISTRIBUTED FRAMEWORK FOR ENERGY TRADING BETWEEN UAVS AND CHARGING STATIONS FOR CRITICAL APPLICATIONS.pdf | 2019 | Vikas Hassija, Vinay Chamola, Dara Nanda Gopala Krishna and Mohsen Guizan | Department of Computer Science and IT, JIIT, Noida, India 201304 Department of Electrical and Electronics Engineering, BITS-Pilani, Pilani Campus, India 333031 Computer Science and Engineering Department, Qatar University | INDIA QATAR | Blockchain, Decentralized ledger, peer-to-peer, Energy Trading, Stackelberg game, IOTA, Tangle |
A European Emissions Trading System Powered by Distributed Ledger Technology An Evaluation Framework.pdf | 2021 | Rahel Mandaroux , Chuanwen Dong and Guodong Li | 1 Department of Finance, ESCP Business School, 14059 Berlin, Germany 2 Department of Information and Operations Management, ESCP Business School, 14059 Berlin, Germany; cdong@escp.eu 3 Wolveshill Consulting Ltd., Orpington BR5 3QB, UK; guodong@wolveshill.co.uk * Correspondence: rmandaroux@escp.eu; Tel.: +49-(0)30-32007-201 | GERMANY | European Trading System; distributed ledger technology; digitalization; blockchain; trading platform; decentralized identifiers; verifiable credentials; wallet-to-wallet |
A FAST, SECURE AND DISTRIBUTED CONSENSUS MECHANISM FOR ENERGY TRADING AMONG VEHICLES USING HASHGRAPH.pdf | 2020 | Bansal G., Bhatia A. | Birla Institute of Technology and Science, Department of Computer Science and Information Systems, Pilani, Rajasthan, 333031, India | INDIA | Blockchain; Energy Training; Hashgraph; V2V Networks |
A framework for designing and evaluating realistic blockchain-based local energy markets.pdf | 2021 | Christidis K., Sikeridis D., Wang Y., Devetsikiotis M. | Department of Electrical & Computer Engineering, North Carolina State University, Campus Box 7914, Raleigh, NC 27695-7914, United States; Department of Electrical & Computer Engineering, The University of New Mexico, Albuquerque, NM 87131, United States | MEXICO UNITED STATES | Blockchain; Decentralized market; Local energy market; Peer-to-peer trading; Renewable energy; Transactive energy |
A game-theoretic approach to assess peer-to-peer rooftop solar PV electricity trading under constrained power supply.pdf | 2021 | ||||
A GREEN POWER TRACEABILITY TECHNOLOGY BASED ON TIMESTAMP IN A MAIN-SIDE CHAIN SYSTEM.pdf | 2020 | H. Wang; Y. Yao; X. Wang; X. Wang; L. Zeng; W. Qiu; D. He; Q. Wang | Information & Telecommunication Branch,State Grid Zhejiang Electric Power Corporation,Hangzhou,China; Information & Telecommunication Branch,State Grid Zhejiang Electric Power Corporation,Hangzhou,China; Zhejiang University,School of Software Technology,Ningbo,China; Hangzhou Qulian Technology Co., Ltd,DataMesh Labs,Hangzhou,China; Hangzhou Qulian Technology Co., Ltd,Dept. of Govt. & Enterprise Business,Hangzhou,China; Hangzhou Qulian Technology Co., Ltd,Research and Development Center,Hangzhou,China; Information & Telecommunication Branch,State Grid Zhejiang Electric Power Corporation,Hangzhou,China; Zhejiang University,College of Computer Science,Hangzhou,China | CHINA | Blockchain;main chain;side chain;green power traceability |
A GRID CONNECTION MECHANISM OF LARGE-SCALE DISTRIBUTED ENERGY RESOURCES BASED ON BLOCKCHAIN.pdf | 2019 | W. Shao; W. Xu; Z. Xu; B. Liu; H. Zou | Education Technology and Computing Center, Tongji University, Shanghai, 200092, China; College of Electronic and Information Engineering, Tongji University, Shanghai, 201804, China; College of Electronic and Information Engineering, Tongji University, Shanghai, 201804, China; Information Office, Tongji University, Shanghai, 200092, China; Education Technology and Computing Center, Tongji University, Shanghai, 200092, China | CHINA | Distributed energy resource;Grid connection;Virtual power plant;Blockchain |
A HIGH-PERFORMANCE LOCAL ENERGY TRADING CYBER-PHYSICAL SYSTEM BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2019 | Liu, SQ; Chen, F; Shen, L; Hu, YS; Ding, Y | Zhejiang University; State Grid Corporation of China; State Grid Corporation of China | CHINA | |
A Hybrid Blockchain Consensus Algorithm Using Locational Marginal Pricing for Energy Applications.pdf | 2021 | S. Ghosh; R. S. Dutta | School of Engineering, University of Kansas,Overland Park,KS,USA; College of Computing, Illinois Institute of Technology,Chicago,IL,USA United States | UNITED STATES | Energy blockchains;proof of work;proof of stake;hybrid consensus;locational marginal price;smart-contract;initial coin offering |
A Lightweight and Secure Energy Trading Framework for Electric Vehicles.pdf | 2021 | U. Javaid; B. Sikdar | National University of Singapore,Department of Electrical and Computer Engineering,Singapore; National University of Singapore,Department of Electrical and Computer Engineering,Singapore | SINGAPORE | Electric vehicles;energy trading;blockchain |
A MARKET PLACE SOLUTION FOR ENERGY TRANSACTION ON ETHEREUM BLOCKCHAIN.pdf | 2019 | C. H. Park; I. Mejia Barlongo; Y. Kim | University of Nevada,Department of Computer Science,Las Vegas,Nevada,USA; University of Nevada,Department of Computer Science,Las Vegas,Nevada,USA; University of Nevada,Department of Computer Science,Las Vegas,Nevada,USA United States | UNITED STATES | renewable energy;energy transaction;blockchain;internet of things;smart contract;Ethereum |
A Multi-Agent Reinforcement Learning Approach for Blockchain-based Electricity Trading System.pdf | 2021 | ||||
A Multilayered Semi-Permissioned Blockchain Based Platform for Peer to Peer Energy Trading.pdf | 2021 | Zaman, I; He, M | Texas Tech University System; Texas Tech University United States | UNITED STATES | Permissioned Blockchain; Peer-to-Peer Energy Trading; Distributed Energy Resources; Consensus |
A multi-time-scale autonomous energy trading framework within distribution networks based on blockchain.pdf | 2021 | Wu Y., Zhang X., Sun H. | Tsinghua-Berkeley Shenzhen Institute, Tsinghua University, Shenzhen, China; Department of Electrical Engineering, Tsinghua University, Beijing, China | CHINA | Blockchain; Distributed optimization; Energy trading; Loss allocation; Model predictive control; Optimal power flow |
A NEW ARCHITECTURE FOR SMART CONTRACTS DEFINITION IN DEMAND RESPONSE PROGRAMS.pdf | 2019 | Di Silvestre, ML; Gallo, P; Sanseverino, ER; Sciume, G; Zizzo, G | University of Palermo Italy | ITALY | blockchain; transactive energy; microgrids; energy market; peer to peer; smart contract; demand response |
A NEW BLOCKCHAIN DIGITAL MRV (MEASUREMENT, REPORTING, AND VERIFICATION) ARCHITECTURE FOR EXISTING BUILDING ENERGY PERFORMANCE.pdf | 2020 | J. Woo; C. J. Kibert; R. Newman; A. S. K. Kachi; R. Fatima; Y. Tian | University of Florida,M.E. Rinker, Sr. School of Construction Management,Gainesville,FL 32611; University of Florida,M.E. Rinker, Sr. School of Construction United States Management,Gainesville,FL 32611; University of Florida,Computer & Information Science & Engineering,Gainesville,FL 32611; Mississippi State University,Building Construction Science Department,MS 39762; University of Florida,Computer & Information Science & Engineering,Gainesville,FL 32611; University of Florida,M.E. Rinker, Sr. School of Construction Management,Gainesville,FL 32611 | UNITED STATES | Blockchain Architecture;Building Energy Performance (BEP);Digital Measurement;Reporting;and Verification (MRV);Carbon Credit |
A NOVEL AUTHENTICATION SCHEME BASED ON EDGE COMPUTING FOR BLOCKCHAIN-BASED DISTRIBUTED ENERGY TRADING SYSTEM.pdf | 2020 | Ren Y., Zhao Q., Guan H., Lin Z. | School of Mathematics and Information Technology, Yuncheng University, Yuncheng, 044000, China; School of Mathematics and Information Science, Guangzhou University, Guangzhou, 510006, China | CHINA | Authentication scheme; Blockchain; Consensus; Edge computing; Energy trading system |
A novel decentralized platform for peer-to-peer energy trading market with blockchain technology.pdf | 2021 | Esmat A., de Vos M., Ghiassi-Farrokhfal Y., Palensky P., Epema D. | Rotterdam School of Management, Erasmus University, Netherlands; Faculty Electrical Engineering, Mathematics and Computer Science, Technische Universiteit Delft, Netherlands | NETHERLANDS | Blockchain technology; Decentralized market clearing; Inter-temporal market products; Peer-to-peer energy trading |
A NOVEL ELECTRICITY TRANSACTION MODE OF MICROGRIDS BASED ON BLOCKCHAIN AND CONTINUOUS DOUBLE AUCTION.pdf | 2017 | Wang, J; Wang, QG; Zhou, NC; Chi, Y | Chongqing University; Nanyang Technological University & National Institute of Education (NIE) Singapore; Nanyang Technological University | SINGAPORE | microgrid market; electricity transaction; blockchain; continuous double auction; adaptive aggressiveness strategy |
A Novel Energy Trading Framework Using Adapted Blockchain Technology.pdf | 2021 | Hamouda, MR; Nassar, ME; Salama, MMA | University of Waterloo Egypt | EGYPT | Blockchain; Generators; Business; Indexes; Transactive energy; Smart meters; Reliability; Trading; energy; blockchain; smartgrid; planning; market |
A NOVEL FRAMEWORK FOR MONITORING SOLAR PV BASED ELECTRIC VEHICLE COMMUNITY CHARGING STATION AND GRID FREQUENCY REGULATION USING BLOCKCHAIN.pdf | 2019 | Madhu G.M., Vyjayanthi C., Modi C.N. | National Institute of Technology Goa, Department of EEE, Farmagudi, Ponda, Goa, India; National Institute of Technology Goa, Department of CSE, Farmagudi, Ponda, Goa, India | INDIA | Blockchain Smart Energy Management Controller (SEMC); Electric Vehicles (EVs); Grid load frequency control; Smart charging station; Solar PV |
A NOVEL PEER-TO-PEER NEGAWATT TRADING TRANSACTIVE ENERGY SYSTEM FOR PROSUMERS.pdf | 2020 | Sypatayev, D; Nunna, HSVSK; Shintemirov, A | Nazarbayev University Russia | RUSSIA | Demand-side management; microgrids; multi-agent systems; transactive energy; blockchain; auction |
A P2P SURPLUS ENERGY TRADE AMONG NEIGHBORS BASED ON HYPERLEDGER FABRIC BLOCKCHAIN.pdf | 2020 | ||||
A PEER-TO-PEER MARKET ALGORITHM FOR A BLOCKCHAIN PLATFORM.pdf | 2020 | Benanti, F; Sanseverino, ER; Sciume, G; Zizzo, G | University of Palermo Italy | ITALY | market algorithm; blockchain; smart contract; micro-grids; energy transaction; peer-to-peer; ancillary services; P2P |
A peer-to-peer verifiable and secure energy trading framework based on blockchain technology.pdf | 2021 | S. de Diego; I. Seco; M. Escalante; N. Vakakis; S. Alexandros; A. Drosou; D. Tzovaras; K. Votis; T. Thomas; A. Colet; P. Paradell | TECNALIA, Basque Research and Technology Alliance (BRTA),ICT Division,Derio,Spain; TECNALIA, Basque Research and Technology Alliance (BRTA),ICT Division,Derio,Spain; TECNALIA, Basque Research and Technology Alliance (BRTA),ICT Division,Derio,Spain; Information Technologies Institute,Center for Research and Technology Hellas,Thessaloniki,Greece; Information Technologies Institute,Center for Research and Technology Hellas,Thessaloniki,Greece; Information Technologies Institute,Center for Research and Technology Hellas,Thessaloniki,Greece; Information Technologies Institute,Center for Research and Technology Hellas,Thessaloniki,Greece; Information Technologies Institute,Center for Research and Technology Hellas,Thessaloniki,Greece; CHECKWATT AB,Network Management,Goteborg,Sweden; Fundacio Institut De Recerca De L’Energia De Catalunya,Electricity and Power Electronics Department,Sant Adria De Besos,Spain; Fundacio Institut De Recerca De L’Energia De Catalunya,Electricity and Power Electronics Department,Sant Adria De Besos,Spain | GREECE SPAIN SWEDEN | Smart grids;Blockchain;Energy trading;Anomaly detection |
A Permissioned Blockchain System to Reduce Peak Demand in Residential Communities via Energy Trading A Real-World Case Study.pdf | 2020 | ||||
A Permissioned Blockchain-Based Energy Management System for Renewable Energy Microgrids.pdf | 2021 | Wang, LZ; Jiao, SC; Xie, Y; Mubaarak, S; Zhang, DL; Liu, JX; Jiang, SY; Zhang, Y; Li, MC | North China Electric Power University; North China Electric Power University | CHINA | permissioned blockchain; renewable energy microgrid; privacy-preserving; peer-to-peer energy management; decentralized management |
A PRIVACY-FRIENDLY GAMING FRAMEWORK IN SMART ELECTRICITY AND WATER GRIDS.pdf | 2017 | C. Rottondi; G. Verticale | Dalle Molle Institute for Artificial Intelligence, University of Lugano–University of Applied Science and Arts of Southern Switzerland, Manno, Switzerland; Department of Electronics, Information, and Bioengineering, Politecnico di Milano, Milan, Italy | ITALY SWITZERLAND | Smart grids;gamification;serious games;privacy;water conservation;energy conservation |
A Proof-of-Stake public blockchain based pricing scheme for peer-to-peer energy trading.pdf | 2021 | Yang J., Paudel A., Gooi H.B., Nguyen H.D. | Nanyang Technological University, Singapore; The University of British Columbia, Canada | CANADA SINGAPORE | Blockchain; Peer-to-peer energy trading; Pricing scheme; Smart contract |
A REAL PILOT-PLATFORM IMPLEMENTATION FOR BLOCKCHAIN-BASED PEER-TO-PEER ENERGY TRADING.pdf | 2020 | El-Sayed, I; Khan, K; Dominguez, X; Arboleya, P | University of Oviedo Spain Ecuador | ECUADOR SPAIN | blockchain; energy trading; peer-to-peer; transactive energy; ethereum |
A REVIEW AND DEVELOPMENT OF RESEARCH FRAMEWORK ON TECHNOLOGICAL ADOPTION OF BLOCKCHAIN AND IOT IN SUPPLY CHAIN NETWORK OPTIMIZATION.pdf | 2020 | Kadadevaramth R.S., Sharath D., Ravishankar B., Mohan Kumar P. | Siddaganga Institute of Technology, Department of Industrial Engineering and Management, Tumakuru, India; Industrial Engineering Management, Audencia Business School, Nantes, France; BMS College of Engineering, Department of Industrial Engineering and Management, Bangalore, India | FRANCE INDIA | Blockchain; Cloud computing; IoT; Sensors and Supply chain |
A Review of Blockchain Empowered Vehicular Network Performance Evaluation of Trusted Task Offloading Scheme.pdf | 2021 | Iqbal, S; Noor, RM; Malik, AW | Universiti Malaya; National University of Sciences & Technology - Pakistan | PAKISTAN | Internet of Vehicles; Fog Computing; Blockchain; Trusted Computation |
A REVIEW OF METHODICAL DECENTRALISATION OF ENERGY AND ENERGY TRANSACTIONS UTILISING DISTRIBUTED LEDGER VIA TRANSITION ARCHITECTURE BASED FRAMEWORK.pdf | 2020 | Chopra, AR; Nair, NKC | University of Auckland New Zealand | NEW ZEALAND | Blockchain; Hyper ledger; Digital Ledger; Dynamic Energy Resources; Peer to Peer Energy Trading |
A REVIEW OF THE APPLICATIONS OF THE BLOCK-CHAIN TECHNOLOGY IN SMART DEVICES AND DISTRIBUTED RENEWABLE ENERGY GRIDS.pdf | 2017 | Kushch, S; Castrillo, FP | University of Salamanca Spain | SPAIN | Smart Grid; Smart Meter; Blockchain; Renewable Energy; Energy Market |
A Secure and Decentralized Blockchain Based EV Energy Trading Model Using Smart Contract in V2G Network.pdf | 2021 | ||||
A SECURE AND EFFICIENT RENEWABLE ENERGY TRADING SCHEME BASED ON BLOCKCHAIN IN SMART GRID.pdf | 2019 | Lu X., Guan Z., Zhou X., Du X., Wu L., Guizani M. | School of Control and Computer Engineering, North China Electric Power University, China; Department of Computer and Information Science, Temple University, Philadelphia, PA, United States; Department of Mathematics and Computer Science, Fayetteville State University, Fayetteville, United States; Department of Computer Science and Engineering, Qatar University, Doha, Qatar | CHINA QATAR UNITED STATES | blockchain; distributed energy trading; privacy protection; smart grid |
A SECURE AND PRACTICAL BLOCKCHAIN SCHEME FOR IOT.pdf | 2019 | Hongyang Liu1,2, Feng Shen1, Zhiqiang Liu1, Yu Long1, Zhen Liu1, Shifeng Sun1, Shuyang Tang1, Dawu Gu1 | 1School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai, China 2Shanghai Viewsource Information Science & Technology Co.,Ltd | CHINA | Blockchain, BIoT, Sharding, Two-Layer BFT |
A SECURE BLOCKCHAIN-BASED DEMURRAGE MECHANISM FOR ENERGY TRADING IN SMART COMMUNITIES.pdf | 2020 | Samuel, O; Javaid, N | COMSATS University Islamabad (CUI) Pakistan | PAKISTAN | blockchain; demand response ratio; demurrage; energy trading; paillier encryption; privacy preservation |
A SECURE CHARGING SCHEME FOR ELECTRIC VEHICLES WITH SMART COMMUNITIES IN ENERGY BLOCKCHAIN.pdf | 2018 | Su Z., Wang Y., Xu Q., Fei M., Tian Y.-C., Zhang N. | School of Mechatronic Engineering and Automation, Shanghai University, Shanghai, 200072, China; School of Electrical Engineering and Computer Science, Queensland University of Technology, Brisbane, QLD 4000, Australia; Department of Computing Science, Texas AM University at Corpus Christi, Corpus Christi, TX 78412, United States | AUSTRALIA CHINA UNITED STATES | Contract theory; Electric vehicles (EVs); Energy blockchain; Internet of Energy (IoE); Smart community (SC) |
A secure distributed ledger for transactive energy The Electron Volt Exchange (EVE) blockchain.pdf | 2020 | ||||
A SECURE PERMISSIONED BLOCKCHAIN BASED SYSTEM FOR TRADEMARKS.pdf | 2019 | ||||
A SECURE PRIVATE CHARGING PILE SHARING SCHEME WITH ELECTRIC VEHICLES IN ENERGY BLOCKCHAIN.pdf | 2019 | Wang Y., Su Z., Zhang K. | MOE KLINNS Laboratory, School of Electronic and Information Engineering, Xi'an Jiaotong University, China; School of Mechatronic Engineering and Automation, Shanghai University, China; Electrical and Computer Engineering Department, University of Nebraska-Lincoln, United States | CHINA UNITED STATES | Blockchain; Electric vehicles; Reputation evaluation; Sharing security |
A Secure Trust Method for Multi-Agent System in Smart Grids Using Blockchain.pdf | 2021 | R. Khalid; O. Samuel; N. Javaid; A. Aldegheishem; M. Shafiq; N. Alrajeh | Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Urban Planning, College of Architecture and Planning, King Saud University, Riyadh, Saudi Arabia; Department of Information and Communication Engineering, Yeungnam University, Gyeongsan, South Korea; Department of Biomedical Technology, College of Applied Medical Sciences, King Saud University, Riyadh, Saudi Arabia | PAKISTAN SAUDI ARABIA SOUTH KOREA | Blockchain;multi-agent system;multi-secret sharing;proof-of-cooperation;repeated game;tit-3-for-tat;urban planning;trust management system |
A SECURED AND TRUSTED DEMAND RESPONSE SYSTEM BASED ON BLOCKCHAIN TECHNOLOGIES.pdf | 2018 | Apostolos C. Tsolakis, Ioannis Moschos, Konstantinos Votis, Dimosthenis Ioannidis, Tzovaras Dimitrios, Pankai Pandey, Sokratis Katsikas, Raúl García-Castro, Raúl García-Castro | Information Technologies Institute Center for Research and Technologies – Hellas {tsolakis, imoschos, kvotis, djoannid, dimitrios.tzovaras}@iti.gr, Department of Information Security and Communication Technology Norwegian University of Science and Technology Gjøvik, Norwa, Joint Research Center Ispra, Italy, Computer Science School Universidad Politécnica de Madrid Madrid, Spain | ITALY SPAIN NORWAY | blockchain, smart contracts, smart grid, demand response |
A SECURED ENERGY MANAGEMENT ARCHITECTURE FOR SMART HYBRID MICROGRIDS CONSIDERING PEM-FUEL CELL AND ELECTRIC VEHICLES.pdf | 2020 | X. Gong; F. Dong; M. A. Mohamed; O. M. Abdalla; Z. M. Ali | School of Electrical Engineering and Automation, Anhui University, Hefei, China; China Electric Power Planning and Engineering Institute, Beijing, China; Department of Electrical Engineering, Fuzhou University, Fuzhou, China; College of Engineering at Wadi Addawaser, Prince Sattam Bin Abdulaziz University, Wadi Addawaser, Saudi Arabia; College of Engineering at Wadi Addawaser, Prince Sattam Bin Abdulaziz University, Wadi Addawaser, Saudi Arabia | CHINA SAUDI ARABIA | Combined heat and power;smart AC-DC microgrid;point estimate method;uncertainty;energy management |
A Secured Social-Economic Framework Based on PEM-Blockchain for Optimal Scheduling of Reconfigurable Interconnected Microgrids.pdf | 2021 | FENGYUAN YIN1, ALI HAJJIAH 2, KITTISAK JERMSITTIPARSERT 3,4, AMEENA SAAD AL-SUMAITI 5, (Senior Member, IEEE), SALAH K. ELSAYED 6, SHERIF S. M. GHONEIM 6, (Senior Member, IEEE), AND MOHAMED A. MOHAMED 7,8, (Member, IEEE) | 1Department of Mechanical and Electrical Engineering, Wuhan Qingchuan University, Wuhan 430204, China 2Electrical Engineering Department, College of Engineering and Petroleum, Kuwait University, Safat 13060, Kuwait 3Faculty of Administrative, Economic and Social Sciences, University of City Island, Gazima§usa 99450, Northern Cyprus 4Faculty of Social and Political Sciences, Universitas Muhammadiyah Sinjai, Sulawesi Selatan 92615, Indonesia 5Advanced Power and Energy Center, Electrical Engineering and Computer Science Department, Khalifa University, Abu Dhabi, United Arab Emirates 6Department of Electrical Engineering, College of Engineering, Taif University, Taif 21944, Saudi Arabia 7Electrical Engineering Department, Faculty of Engineering, Minia University, Minia 61519, Egypt 8Department of Electrical Engineering, Fuzhou University, Fuzhou 350116, China | CHINA SAUDI ARABIA EGYPT KUWAIT INDONESIA CYPRUS UNITED ARAB EMIRATES | Reconfigurable interconnected microgrid, social-economic analysis, blockchain, point estimate method, corrected crow search, stochastic programming. |
A SECURITY ANALYSIS OF BLOCKCHAIN BASED DECENTRALIZED ENERGY EXCHANGE SYSTEM.pdf | 2020 | M. H. D. Khan; U. Mujahid; M. Najam-ul-Islam; H. Choi | Bahria University,Dept. of Electrical Engineering,Islamabad,Pakistan; Georgia Gwinnett College,Dept. of Information Technology,Georgia,USA; Bahria University,Dept. of Electrical Engineering,Islamabad,Pakistan; Georgia Gwinnett College,Dept. of Information Technology,Georgia,USA | GEORGIA PAKISTAN | blockchain;distributed smart grid;double spending attack;block delay attack;P2SH |
A STUDY OF PRICING AND TRADING MODEL OF BLOCKCHAIN & BIG DATA-BASED ENERGY-INTERNET ELECTRICITY.pdf | 2017 | Fan, T; He, QS; Nie, EB; Chen, SZ | china | CHINA | |
A STUDY ON THE DEVELOPMENT TRENDS OF THE ENERGY SYSTEM WITH BLOCKCHAIN TECHNOLOGY USING PATENT ANALYSIS.pdf | 2020 | Huang, LY; Cai, JF; Lee, TC; Weng, MH | Putian University china | CHINA | blockchain; energy system; patent search; patent analysis |
A STUDY ON THE IMPROVEMENT OF SMART GRID SECURITY PERFORMANCE AND BLOCKCHAIN SMART GRID PERSPECTIVE.pdf | 2018 | Kim, SK; Huh, JH | Sungkyunkwan University (SKKU); Catholic University Pusan Korea | SOUTH KOREA | smart grid security; smart grid; advanced metering infrastructure (AMI); market operation with demand response; Blockchain; ICT (information and communication technology) solutions for demand response; Java implementation; Rainbowchain; Computer Architecture |
A SURVEY AND EVALUATION OF THE POTENTIALS OF DISTRIBUTED LEDGER TECHNOLOGY FOR PEER-TO-PEER TRANSACTIVE ENERGY EXCHANGES IN LOCAL ENERGY MARKETS.pdf | 2019 | Siano P., De Marco G., Rolan A., Loia V. | Department of Management and Innovation Systems, University of Salerno, Fisciano, 84084, Italy; Department of Industrial Engineering, Ramon Llull University, Barcelona, 08017, Spain | ITALY SPAIN | Aggregator; battery; blockchain; demand response; distributed ledger technology; local energy market; microgrid; peer-to-peer transactions; prosumer; smart contracts; smart grid; transactive energy |
A SURVEY OF ARTIFICIAL NEURAL NETWORK-BASED PREDICTION MODELS FOR THERMAL PROPERTIES OF BIOMASS.pdf | 2019 | Obafemi O., Stephen A., Ajayi O., Nkosinathi M. | Mechanical Engineering Science, University of Johannesburg, South Africa; Mechanical and Industrial Engineering Technology, University of Johannesburg, South Africa; Mechanical Engineering, Covenant University, Ota, Nigeria | NIGER NIGERIA SOUTH AFRICA | ANN; Biomass; Elemental composition; Heating value; Prediction models; Transfer functions |
A Survey of Blockchain Applications in the Energy Sector.pdf | 2020 | J. Bao; D. He; M. Luo; K. -K. R. Choo | Key Laboratory of Aerospace Information Security and Trusted Computing of Ministry of Education, School of Cyber Science and Engineering, Wuhan University, Wuhan, China; Key Laboratory of Aerospace Information Security and Trusted Computing of Ministry of Education, School of Cyber Science and Engineering, Wuhan University, Wuhan, China; Key Laboratory of Aerospace Information Security and Trusted Computing of Ministry of Education, School of Cyber Science and Engineering, Wuhan University, Wuhan, China; Department of Information Systems and Cyber Security, University of Texas at San Antonio, San Antonio, TX, USA | CHINA | Blockchain;distributed;energy area;privacy protection |
A SURVEY OF BLOCKCHAIN FROM THE PERSPECTIVES OF APPLICATIONS, CHALLENGES, AND OPPORTUNITIES.pdf | 2019 | Ahmed Afif Monrat, PhD Student, LTU, Olov Schelen, ´ Associate Professor, LTU, and Karl Andersson, Associate Professor, LTU | Swedish Energy Agency under grant 43090-2, Cloudberry Datacenters | SWEDEN | blockchain, distributed ledger, consensus procedures, cryptocurrency, smart contract, selfish mining, energy consumption |
A SURVEY ON BLOCKCHAIN A GAME THEORETICAL PERSPECTIVE.pdf | 2019 | ZIYAO LIU1, NGUYEN CONG LUONG 1, WENBO WANG 1, (Member, IEEE), DUSIT NIYATO 1, (Fellow, IEEE), PING WANG 2, (Senior Member, IEEE), YING-CHANG LIANG 3, (Fellow, IEEE), AND DONG IN KIM 4, (Fellow, IEEE) | 1School of Computer Science and Engineering, Nanyang Technological University, Singapore 639798 2Department of Electrical Engineering and Computer Science, Lassonde School of Engineering, York University, Toronto, ON M3J 1P3, Canada 3Center for Intelligent Networking and Communications (CINC), University of Electronic Science and Technology of China, Chengdu 611731, China 4Department of Electrical and Computer Engineering, Sungkyunkwan University, Suwon 16419, South Korea | CHINA SOUTH KOREA CANADA SINGAPORE | Blockchain, game theory, mining management, security |
A Survey on Energy Trading in the Smart Grid Taxonomy- Research Challenges and Solutions.pdf | 2021 | SHUBHANI AGGARWAL1, NEERAJ KUMAR 1,2, (Senior Member, IEEE), SUDEEP TANWAR 3, (Senior Member, IEEE), AND MAMOUN ALAZAB4, (Senior Member, IEEE) | 1Department of Computer Science and Engineering, Thapar Institute of Engineering and Technology, Patiala 147004, India 2School of Computer Science, University of Petroleum and Energy Studies, Dehradun, Uttarakhand 248007, India 3Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad, Gujarat 382481, India 4College of Engineering, IT & Environment, Charles Darwin University, Casuarina, NT 0810, Australia | INDIA AUSTRIA | Smart grid, energy trading, incentive models, mathematical models, simulation models, software-defined networking, energy internet, blockchain |
A Survey on Smart Agriculture Development Modes- Technologies- and Security and Privacy Challenges.pdf | 2020 | Xing Yang, Student Member, IEEE, Lei Shu, Senior Member, IEEE, Jianing Chen, Mohamed Amine Ferrag, Jun Wu, Member, IEEE, Edmond Nurellari, Member, IEEE, and Kai Huang | National Natural Science Foundation of China (62072248, 61902188), China Postdoctoral Science Foundation (2019M651713). Recommended by Associate Editor MengChu Zhou. (Corresponding author: Lei Shu.) | CHINA | Agricultural artificial intelligence, agricultural automation, agricultural Internet of Things, security, smart agriculture |
A Survey on the Integration of Blockchain With IoT to Enhance Performance and Eliminate Challenges.pdf | 2021 | ALIA AL SADAWI 1, MOHAMED S. HASSAN 2, AND MALICK NDIAYE 1 | 1Department of Engineering Systems Management, American University of Sharjah, Sharjah, United Arab Emirates 2Department of Electrical Engineering, American University of Sharjah, Sharjah, United Arab Emirates | UNITED ARAB EMIRATES | Blockchain, IoT, smart contract, trust, IoT challenges, IoT security, decentralized IoT, cloudlet computing, dew computing, cloudlet-dew architecture. |
A Sustainable Energy-Tailored Transaction Mechanism for Smart Grids Based on Block Chains.pdf | 2021 | H. Feng; J. L. Shaffer; L. Yu; R. Xu; Y. Chen; X. Ma | School of Advanced Technology, Xi©an Jiaotong-Liverpool University, Suzhou, P.R. China; School of Advanced Technology, Xi©an Jiaotong-Liverpool University, Suzhou, P.R. China; School of Advanced Technology, Xi©an Jiaotong-Liverpool University, Suzhou, P.R. China; State Grid Jiangxi Electric Power Research Institute, Nanchang, P.R. China; School of Advanced Technology, Xi©an Jiaotong-Liverpool University, Suzhou, P.R. China; College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, P.R. China | CHINA | |
A SUSTAINABLE HOME ENERGY PROSUMER-CHAIN METHODOLOGY WITH ENERGY TAGS OVER THE BLOCKCHAIN.pdf | 2018 | Park, LW; Lee, S; Chang, H | Chung Ang University; Chung Ang University; Chung Ang University Korea | SOUTH KOREA | smart home; blockchain; energy; energy domain; energy transaction; P2P transaction; sustainability; prosumer; smart city |
A TECHNICAL APPROACH TO THE ENERGY BLOCKCHAIN IN MICROGRIDS.pdf | 2018 | Di Silvestre, ML; Gallo, P; Ippolito, MG; Sanseverino, ER; Zizzo, G | University of Palermo Italy | ITALY | Blockchain; energy blockchain; microgrids; peer-to-peer (P2P); power losses; reactive power; transactive energy |
A THREE-TIER FRAMEWORK FOR UNDERSTANDING DISRUPTION TRAJECTORIES FOR BLOCKCHAIN IN THE ELECTRICITY INDUSTRY.pdf | 2020 | A. de Villiers; P. Cuffe | School of Electrical and Electronic Engineering, University College Dublin, Dublin 4, Ireland; School of Electrical and Electronic Engineering, University College Dublin, Dublin 4, Ireland | IRELAND | Blockchain;decentralised autonomous organisations;distributed ledgers;energy trading;energy economics;energy finance;microgrid;peer-to-Peer market;renewable energy sources;smart contracts;smart grid;transactive energy |
A transactive energy model for smart metering systems using blockchain.pdf | 2021 | Olivares-Rojas, JC; Reyes-Archundia, E; Gutierrez-Gnecchi, JA; Molina-Moreno, I; Cerda-Jacobo, J; Mendez-Patino, A | Mexico | MEXICO | Data visualization; fault diagnosis; IoT; network; photovoltaic system; wireless remote monitoring |
A TRANSACTIVE GRID WITH MICROGRIDS USING BLOCKCHAIN FOR THE ENERGY INTERNET.pdf | 2020 | Dimobi, I; Pipattanasomporn, M; Rahman, S | Virginia Polytechnic Institute & State University United States | UNITED STATES | Transactive energy; blockchain; microgrids; smart contract; smart grid |
A Two-Stage Privacy Preservation and Secure Peer-to-Peer Energy Trading Model Using Blockchain and Cloud-Based Aggregator.pdf | 2021 | ADAMU SANI YAHAYA 1, NADEEM JAVAID 1, (Senior Member, IEEE), AHMAD ALMOGREN 2, (Senior Member, IEEE), ABRAR AHMED 3, SARDAR MUHAMMAD GULFAM3, AND AYMAN RADWAN 4, (Senior Member, IEEE) | 1Department of Computer Science, COMSATS University Islamabad, Islamabad 44000, Pakistan 2Chair of Cyber Security, Department of Computer Science, College of Computer and Information Sciences, King Saud University, Riyadh 11633, Saudi Arabia 3Department of Electrical and Computer Engineering, COMSATS University Islamabad, Islamabad 44000, Pakistan 4Instituto de Telecomunicaçıes, Universidade de Aveiro, 3810-193 Aveiro, Portugal | SAUDI ARABIA PAKISTAN Portugal | Mutual authentication, blockchain, contract theory, energy trading, privacy, security |
A UNIFIED MODEL OF PEER TO PEER ENERGY TRADE AND ELECTRIC VEHICLE CHARGING USING BLOCKCHAINS.pdf | 2018 | Thakur S., Hayes B.P., Breslin J.G. | National University of Ireland Galway, Galway, Ireland; National University of Ireland Galway, Galway, Ireland | IRELAND | |
A_Blockchain-based_Energy_Trading_Scheme_for_Dynamic_Charging_of_Electric_Vehicles.pdf | 2021 | Abdulaziz Alshaeri and Mohamed Younis | Department of Computer Science and Electrical Engineering University of Maryland, Baltimore County Baltimore, USA | UNITED STATES | Electric Vehicles (EVs), Dynamic Charging, Energy Trading, Authentication, PUFs, Blockchain |
A_Blockchain-Based_Energy_Trading_Scheme_for_Electric_Vehicles.pdf | 2021 | Mohamed Baza∗, Ramy Amer†, Amar Rasheed∗, Gautam Srivastava‡, Mohamed Mahmoud§, Waleed Alasmary | ∗Department of Computer Science, Sam Houston State University, Huntsville, TX, USA ∗Department of Electrical Engineering, CONNECT Centre, Trinity College Dublin, Ireland ‡Department of Mathematics and Computer Science, Brandon University, Manitoba, Canada §Department of Electrical and Computer Engineering, Tennessee Tech University, Cookeville, TN, USA Department of Computer Engineering, Umm Al-Qura University, Makkah, Saudi Arabia | UNITED STATES SAUDI ARABIA CANADA IRELAND | Security, privacy, blockchains,smart contracts, energy trading, and Electric Vehicles (EVs) |
A_Lightweight_and_Secure_Energy_Trading_Framework_for_Electric_Vehicles.pdf | 2021 | Uzair Javaid, Student Member, IEEE and Biplab Sikdar, Senior Member, IEEE | Department of Electrical and Computer Engineering National University of Singapore, Singapor | SINGAPORE | Electric vehicles; energy trading; blockchain |
A_Review_of_Cyber-Physical_Security_for_Photovoltaic_Systems.pdf | 2021 | Jin Ye, Annarita Giani, Ahmed Elasser, Sudip K. Mazumder, Chris Farnell, Homer Alan Mantooth, Taesic Kim, Jianzhe Liu, Bo Chen, Gab-Su Seo, Wenzhan Song, Mateo D. Roig Greidanus, Subham Sahoo, Frede Blaabjerg, Jinan Zhang, Lulu Guo, Bohyun Ahn, Mohammad B. Shadmand, Nanditha R. Gajanur, and Mohammad A. Abbaszada | Department of Energy’s Office of Energy Efficiency and Renewable Energy (EERE) under the Solar Energy Technologies Office Award Number DE-EE0009026. Argonne National Laboratory, managed by UChicago Argonne | UNITED STATES | Cyber-physical security, firmware and network security, PV converter, cyber security assessment, detection and mitigation. |
A_transactive_energy_model_for_smart_metering_systems_using_blockchain.pdf | 2021 | Juan C. Olivares-Rojas, Enrique Reyes-Archundia Jose A. Guti ´ errez-Gnecchi, ´Ismael Molina-Moreno, Jaime Cerda-Jacobo, and Arturo Mendez-Pati | Tecnologico ´ Nacional de Mexico under grants 7948.20-P, 8000.20-P and 10285.21-P ´ o | MEXICO | Data visualization, fault diagnosis, IoT, network, photovoltaic system, wireless remote monitoring. |
A-costefficientbased-cooperative-allocation-of-mining-devices-and-renewable-resources-enhancing-blockchain-architectureSustainability-Switzerland.pdf | 2021 | Mohamed A. Mohamed 1,* , Seyedali Mirjalili 2,3 , Udaya Dampage 4, Saleh H. Salmen 5 , Sami Al Obaid 5 and Andres Annuk | 1 Electrical Engineering Department, Faculty of Engineering, Minia University, Minia 61519, Egypt 2 Center for Artificial Intelligence Research and Optimisation, Torrens University Australia, Brisbane, QLD 4006, Australia; ali.mirjalili@laureate.edu.au 3 Yonsei Frontier Lab, Yonsei University, Seoul 03722, Korea 4 Faculty of Engineering, Kotelawala Defence University, Kandawala Estate, Ratmalana 10390, Sri Lanka; dampage@kdu.ac.lk 5 Department of Botany and Microbiology, College of Science, King Saud University, Riyadh 11451, Saudi Arabia; ssalmen@ksu.edu.sa (S.H.S.); saalobaid@ksu.edu.sa (S.A.O.) 6 Chair of Energy Application Engineering, Institute of Technology, Estonian University of Life Sciences, 51006 Tartu, Estonia; andres.annuk@emu.ee | EGYPT SAUDI ARABIA AUSTRIA SOUTH KOREA SRILANKA ESTONIA | smart grid; blockchain technology; modified reconfiguration of miners; distributed generation resources; unscented transform; intelligent priority selection method |
ADAPTIVE BIDDING STRATEGY FOR REAL-TIME ENERGY MANAGEMENT IN MULTI-ENERGY MARKET ENHANCED BY BLOCKCHAIN.pdf | 2020 | Wang L., Liu J., Yuan R., Wu J., Zhang D., Zhang Y., Li M. | State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, School of New Energy, North China Electric Power University, Beijing, 102206, China; School of Economics and Management, North China Electric Power University, Beijing, 102206, China | CHINA | Adaptive learning; Bidding strategy; Blockchain; Dynamic compensation; Multi-energy market; Real-time energy management |
ADDRESSING CHALLENGES IN PROSUMER-BASED MICROGRIDS WITH BLOCKCHAIN AND AN IEC 61850-BASED COMMUNICATION SCHEME.pdf | 2020 | M. Gayo; C. Santos; F. J. R. Sánchez; P. Martin; J. A. Jiménez; M. Tradacete | Department of Electronics, University of Alcalá, Alcalá de Henares, Spain; Department of Electronics, University of Alcalá, Alcalá de Henares, Spain; Department of Electronics, University of Alcalá, Alcalá de Henares, Spain; Department of Electronics, University of Alcalá, Alcalá de Henares, Spain; Department of Electronics, University of Alcalá, Alcalá de Henares, Spain; Department of Electronics, University of Alcalá, Alcalá de Henares, Spain | SPAIN | Blockchain;distributed generation;local energy market;prosumer;smart contract;Transactive Energy;aperiodic strategy |
ADVANCED DISTRIBUTION METHOD FOR SMART GRIDS IN THE MOBILITY WORLD USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | S. A. Dakhl; A. Mezaael; Y. Taleb; D. Alali; M. Zohdy | Electrical and Computer Engineering, Oakland University,Michigan,USA; Electrical and Computer Engineering, Oakland University,Michigan,USA; Electrical and Computer Engineering, Oakland University,Michigan,USA; Electrical and Computer Engineering, Oakland University,Michigan,USA; Electrical and Computer Engineering, Oakland University,Michigan,USA united states | UNITED STATES | component;blockchain;smart grids;energy;connected vehicle |
AEBIS AI-ENABLED BLOCKCHAIN-BASED ELECTRIC VEHICLE INTEGRATION SYSTEM FOR POWER MANAGEMENT IN SMART GRID PLATFORM.pdf | 2020 | Z. Wang; M. Ogbodo; H. Huang; C. Qiu; M. Hisada; A. B. Abdallah | Adaptive Systems Laboratory, Graduate School of Computer Science and Engineering, The University of Aizu, Aizuwakamatsu, Japan; Adaptive Systems Laboratory, Graduate School of Computer Science and Engineering, The University of Aizu, Aizuwakamatsu, Japan; Aizu Computer Science Laboratories, Inc., Aizuwakamatsu, Japan; Adaptive Systems Laboratory, Graduate School of Computer Science and Engineering, The University of Aizu, Aizuwakamatsu, Japan; Aizu Computer Science Laboratories, Inc., Aizuwakamatsu, Japan; Adaptive Systems Laboratory, Graduate School of Computer Science and Engineering, The University of Aizu, Aizuwakamatsu, Japan | JAPAN | AI-enabled;blockchain-based;EVs;power-management;AI-chip;virtual power plant |
Agent-based approach for Decentralized Genetic Algorithm.pdf | 2021 | ||||
AGGREGATION AND REMUNERATION IN DEMAND RESPONSE WITH A BLOCKCHAIN-BASED FRAMEWORK.pdf | 2015 | Di Silvestre, ML; Gallo, P; Sanseverino, ER; Sciume, G; Zizzo, G | University of Palermo Italy | ITALY | Blockchain; Smart contracts; Load management; Estimation; Remuneration; Privacy; Smart meters; Blockchain; demand response (DR); energy market; microgrids; peer to peer (P2P); smart contract; transactive energy |
AGGREGATOR BASED COORDINATED TRANSACTIVE ENERGY TRADING BETWEEN MICROGRIDS.pdf | 2020 | Crasta, C; Mishra, S; Agabus, H; Palu, I | Estonia | ESTONIA | aggregator; blockchain; distributed generation; microgrid; transactive energy |
Aggregator free ancillary services e-market for electric vehicles using smart contracts.pdf | 2021 | Acharya, RM; Rao, BH; Selvan, MP | National Institute of Technology (NIT System); National Institute of Technology Tiruchirappalli india | INDIA | electric vehicles; power markets; smart city; smart contracts |
An approach for applying blockchain technology in centralized electricity markets.pdf | 2021 | M. Aybar-Mejía a,*, D. Rosario-Weeks a, D. Mariano-Hern´ andez a, M. Domínguez-Garabitos b | a Area ´ de Ingeniería, Instituto Tecnol´ ogico de Santo Domingo, 10602, Santo Domingo, Dominican Republic b Area ´ de Ciencias Basicas ´ y Ambientales, Instituto Tecnol´ ogico de Santo Domingo, 10602 Santo Domingo, Dominican Republic | Dominican Republic | Blockchain Centralized market Electricity sector Renewable energy Electricity marke |
An Architecture and Performance Evaluation of Blockchain-Based Peer-to-Peer Energy Trading.pdf | 2021 | Abdella, J; Tari, Z; Anwar, A; Mahmood, A; Han, FL | Royal Melbourne Institute of Technology (RMIT); Royal Melbourne Institute of Technology (RMIT); Deakin University; La Trobe University Australia | AUSTRALIA | Blockchain; Security; Peer-to-peer computing; Throughput; Scalability; Privacy; Distributed ledger; Peer-to-peer energy trading; blockchain; smart contracts; security; privacy; performance; scalability |
AN ARCHITECTURE FOR BLOCKCHAIN BASED PEER TO PEER ENERGY TRADING.pdf | 2019 | Abdella J.A., Shuaib K. | United Arab Emirates Univeristy, College of Information Technology, Al Ain, United Arab Emirates | UNITED ARAB EMIRATES | Architecture; Blockchain; Peer to Peer Energy Trading; Performance; Privacy; Security |
AN ASSESSMENT FRAMEWORK TO DETERMINE THE STRATEGIC VALUE OF IT ARCHITECTURES IN SMART GRIDS.pdf | 2017 | Razo-Zapata I.S., Shrestha A., Proper E. | IT for Innovative Services, Department Luxembourg Institute of Science and Technology, Belval, Luxembourg; School of Management and Enterprise, University of Southern Queensland, Toowoomba, QSD, Australia | AUSTRALIA LUXEMBOURG | Assessment; Decision Support System; Design Science Research; Smart Grid Architecture Model; Smart Grids |
An effective secured peer-to-peer energy market based on blockchain architecture for the interconnected microgrid and smart grid.pdf | 2021 | Kavousi-Fard, A; Almutairi, A; Al-Sumaiti, A; Farughian, A; Alyami, S | University of Michigan System; University of Michigan; Majmaah University; Khalifa University of Science & Technology; University of Vaasa Saudi Arabia United Arab Emirates United United States Finland | FINLAND SAUDI ARABIA UNITED ARAB EMIRATES UNITED STATES | Secured P2P energy market; Blockchain architecture; Microgrid; Smart grid; RCI approach; Unscented transform |
AN EFFICIENT AND PRIVACY-PRESERVING ENERGY TRADING SCHEME BASED ON BLOCKCHAIN.pdf | 2019 | Xin Lu1, Zhitao Guan1, Xiao Zhou1, Longfei Wu2, Xiaojiang Du3, Mohsen Guizani4 | 1. School of Control and Computer Engineering, North China Electric Power University, China 2. Department of Mathematics and Computer Science, Fayetteville State University, Fayetteville, USA 3. Department of Computer and Information Science, Temple University, Philadelphia PA, USA 4. Department of Computer Science and Engineering, Qatar University, Doha, Qatar. | UNITED STATES CHINA QATAR | Energy Trading, Blockchain, CP-ABE, Access Control, Privacy Protection |
An Efficient Blockchain-Based Authentication Scheme for Energy-Trading in V2G Networks.pdf | 2020 | Aggarwal, S; Kumar, N; Gope, P | Thapar Institute of Engineering & Technology; University of Petroleum & Energy Studies (UPES); Asia University Taiwan; King Abdulaziz University; University of Sheffield | TAIWAN | Vehicle-to-grid; Authentication; Protocols; Blockchain; Privacy; Cascading style sheets; Blockchain; charging stations (CSs); electric vehicles (EVs); Merkle root hash (MRH); mutual authentication; smart grid (SG); vehicle-to-grid (V2G) |
An Efficient Blockchain-based Electric Vehicle Charging Management System.pdf | 2021 | Ahmed Khoumsi | Department Electrical and Computer Engineering, Universite de Sherbrooke, Canada ´ | CANADA | Electric vehicle (EV), charging station (CS), efficient charging program, linear programming, smart meters, payment, cryptocurrency, blockchain, smart contract, Ethereum |
AN ENERGY BLOCKCHAIN, A USE CASE ON TENDERMINT.pdf | 2018 | Di Silvestre M.L., Gallo P., Ippolito M.G., Riva Sanseverino E., Sciume G., Zizzo G. | Ingegneria Dell'Informazione e Modelli Matematici, Università di Palermo, DEIM-Dipartimento di Energia, Palermo, Italy | ITALY | blockchain; energy market; microgrids; peer to peer; transactive energy |
AN ETHEREUM-BASED ENERGY TRADING PROTOCOL (EETP).pdf | 2020 | Thibodeau Hafid Y.M., Makrakis D., Elie E. | School of Electrical Engineering and Computer Science (EECS), University of Ottawa, Canada; Intel, California, United States | CANADA UNITED STATES | Blockchain; energy trading; Ethereum; green energy; smart contract; stable coin |
AN IMPLEMENTED OPEN SOURCE BLOCKCHAIN MARKET FOR SMART GRIDS AND MICROGRIDS USING AUTONOMOUS AGENTS.pdf | 2019 | Forsström S., Jennehag U. | Mid Sweden University, Institution of Information Systems and Technology, Sundsvall, Sweden | SWEDEN | Blockchain; Industrial Internet of Things; Internet of Things; Microgrids; Open source; Smart grid |
AN INTEGRATED BLOCKCHAIN-BASED ENERGY MANAGEMENT PLATFORM WITH BILATERAL TRADING FOR MICROGRID COMMUNITIES.pdf | 2020 | van Leeuwen G., AlSkaif T., Gibescu M., van Sark W. | Copernicus Institute of Sustainable Development, Utrecht University (UU), Utrecht, Netherlands | NETHERLANDS | Blockchain; Decentralized optimization; Distributed energy resources; Local electricity markets; Microgrids; Optimal power flow; Smart contracts |
An Optimized and Decentralized Energy Provision System for Smart Cities.pdf | 2021 | Swain, A; Salkuti, SR; Swain, K | Woosong University; Gandhi Institute For Technological Advancement Korea India | INDIA SOUTH KOREA | microgrid; bio-inspired algorithms; wireless sensor network; genetic algorithm; particle swarm optimization; advanced metering infrastructure; blockchain; Ethereum |
An Optimized Radiation Tolerant Baseline Correction Filter for HEP Using AI Methodologies.pdf | 2020 | ||||
ANALYSIS OF DECENTRALIZED ENERGY TRANSACTIONS BASED ON SMART CONTRACT.pdf | 2020 | ||||
ANCILLARY SERVICES IN THE ENERGY BLOCKCHAIN FOR MICROGRIDS.pdf | 2019 | ||||
Application of Blockchain in Green Energy for Sustainable Future.pdf | 2021 | ||||
APPLICATION OF BLOCKCHAIN IN INTEGRATED ENERGY SYSTEM TRANSACTIONS.pdf | 2020 | Liu J., Sun S., Chang Z., Zhou B., Wang Y., Wang J., Wang S. | State Grid Hebei Electric Power Co. Ltd., Hebei, 05000, China; State Grid Hebei Economic Research Institute, Hebei, 05000, China; Departments of Economics and Management, North China Electric Power University, Beijing, 102200, China | CHINA | |
APPLICATION OF BLOCKCHAIN TECHNOLOGY IN ENERGY INTERNET MARKET AND TRANSACTION.pdf | 2019 | ||||
APPLICATION OF BLOCKCHAIN TECHNOLOGY IN INCENTIVIZING EFFICIENT USE OF RURAL WASTES A CASE STUDY ON YITONG SYSTEM.pdf | 2018 | Zhang, D | china | CHINA | renewable energy; rural wastes; centralized treatment; decentralized; blockchain system; business model; sustainability |
APPLICATION OF BLOCKCHAIN TECHNOLOGY IN PEER-TO-PEER TRANSACTION OF PHOTOVOLTAIC POWER GENERATION.pdf | 2018 | C. Gao; Y. Ji; J. Wang; X. Sai | Harbin Institute of Technology Harbin, Heilongjiang Province, School of Electrical Engineering and Automation, China; Harbin Institute of Technology Harbin, Heilongjiang Province, School of Electrical Engineering and Automation, China; Harbin Institute of Technology Harbin, Heilongjiang Province, School of Electrical Engineering and Automation, China; Harbin Institute of Technology Harbin, Heilongjiang Province, School of Electrical Engineering and Automation, China | CHINA | Blockchain;P2P;PV;transaction;energy Internet |
APPLICATION OF BLOCKCHAIN TECHNOLOGY IN SMART CITY INFRASTRUCTURE.pdf | 2018 | ||||
APPLICATION OF BLOCKCHAIN TO ENSURE TEMPER-PROOF DATA AVAILABILITY FOR ENERGY SUPPLY CHAIN.pdf | 2020 | ||||
APPLICATION POSSIBILITIES OF BLOCKCHAIN TECHNOLOGY IN THE ENERGY SECTOR.pdf | 2020 | Zielińska A. | AGH University Od Science and Technology, Krakow, Poland | POLAND | |
APPLICATION PROSPECT OF BLOCKCHAIN IN RENEWABLE ENERGY CERTIFICATES.pdf | 2020 | Zhang S., Xuan J., Lyu Z., Fu Y. | State Grid Corporation of China Beijing Power, Exchange Center Company Limited, Beijing, China; State Grid E-Commerce Company Limited State Grid Blockchain Technology (Beijing) Company Limited, Beijing, China | CHINA | Blockchain; Renewable Energy Certificates; Renewable Energy Certificates trading; Smart contract |
APPLICATION PROSPECT OF BLOCKCHAIN TECHNOLOGY IN POWER FIELD.pdf | 2020 | G. Wang; X. Song; L. Liu | School of Electronic and Information Engineering, Lanzhou Jiaotong University,Lanzhou,China,730070; State Grid Gansu Electric Power Company,Lanzhou,China,730030; Lanzhou Guanyun Technology Development Co., Ltd.,Lanzhou,China,730070 | CHINA | blockchain technology features;Electricity trading;Spot Trading;Ubiquitous Electricity Internet of Things |
APPLIED ENGINEERING PROGRAMS OF ENERGY BLOCKCHAIN IN US.pdf | 2018 | Zhao, YH; Peng, K; Xu, BY; Liu, YQ; Xiong, W; Han, Y | Shandong University of Technology; China Southern Power Grid | CHINA | Applied engineering programs; energy blockchain; peer-to-peer (P2P) energy trading |
APPLYING BLOCKCHAIN TECHNOLOGY TO DECENTRALIZED OPERATION IN FUTURE ENERGY INTERNET.pdf | 2017 | ||||
Architecture Design and Application of distributed power trading System based on blockchain Asynchronous Consensus.pdf | 2021 | ||||
Assessment and Tracking Electric Vehicle Battery Degradation Cost using Blockchain.pdf | 2021 | S. N. Gowda; B. A. Eraqi; H. Nazaripouya; R. Gadh | Smart Grid Energy Research Center, University of California,Los Angeles,USA; Physical Science and Engineering,Division King Abdullah University of Science and Technology (KAUST),Thuwal,Saudi Arabia; School of Electrical and Computer Engineering, Oklahoma State University,Stillwater,USA; Smart Grid Energy Research Center, University of California,Los Angeles,USA | SAUDI ARABIA | Electric vehicles;V2G;battery degradation;blockchain |
ASSESSMENT FOR EFFICIENT OPERATION OF SMART GRIDS USING ADVANCED TECHNOLOGIES.pdf | 2018 | Seritan, G; Tristiu, I; Fierascu, G | Polytechnic University of Bucharest; Polytechnic University of Bucharest Romania | OMAN ROMANIA | Advanced technology; blockchain; energy efficiency; micro-grid; power quality; smart grid |
A-trusted-energy-trading-framework-by-marrying-blockchain-and-optimization.pdf | 2021 | ||||
ATTRIBUTES OF BIG DATA ANALYTICS FOR DATA-DRIVEN DECISION MAKING IN CYBER-PHYSICAL POWER SYSTEMS.pdf | 2020 | Moradi, J; Shahinzadeh, H; Nafisi, H; Marzband, M; Gharehpetian, GB | Islamic Azad University; Amirkabir University of Technology; Amirkabir University of Technology; Northumbria University Iran United Kingdom | IRAN UNITED KINGDOM | Big data analytics; Machine learning and data mining; Future power systems; Artificial intelligence; Clustering and classification; Smart grids |
Auction Based Distributed and Optimal Trading Mechanism in Electricity Markets under Blockchains.pdf | 2021 | Zhu T., Wei Z., Ning B., Niu J., Liu J., Li S. | Jibei Power Exchange Center Co. Ltd, Beijing, China; Aostar Information Technologies Co. Ltd, Chengdu, China; Beijing Institute of Technology, School of Automation, Beijing, China | CHINA | auction; demand response; electricity market; pricing mechanism; smart contract |
Automated Scheduling Approach under Smart Contract for Remote Wind Farms with Power-to-Gas Systems in Multiple Energy Markets.pdf | 2021 | Ji, ZY; Guo, ZS; Li, H; Wang, Q | Nanjing Normal University China | CHINA | integrated energy system; scheduling; energy trade; smart contract |
AUTOMATIC DEMAND RESPONSE STRATEGY OF LOCAL PURE ELECTRIC VEHICLE WITH BATTERY ENERGY STORAGE SYSTEM BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2018 | ||||
AUTONOMOUS AND PRIVACY-PRESERVING ENERGY TRADING BASED ON REDACTABLE BLOCKCHAIN IN SMART GRID.pdf | 2020 | W. Yang; Z. Guan; L. Wu; X. Du; Z. Lv; M. Guizani | School of Control and Computer Engineering, North China Electric Power University,China; School of Control and Computer Engineering, North China Electric Power University,China; Fayetteville State University,Department of Mathematics and Computer Science,Fayetteville,USA; Temple University,Department of Computer and Information Science,Philadelphia,P A,USA; Qatar University,Department of Computer Science and Engineering,Doha,Qatar; Qatar University,Department of Computer Science and Engineering,Doha,Qatar | CHINA QATAR | P2P Energy Trading;CP-ABE;Privacy-Preserving;Redactable Blockchain;Smart Grid |
BANKING ON BLOCKCHAIN COSTS SAVINGS THANKS TO THE BLOCKCHAIN TECHNOLOGY.pdf | 2017 | ||||
BATTERY DATA MANAGEMENT AND ANALYTICS PLATFORM USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | I. R. Aenugu; G. Bere; J. J. Ochoa; T. Kim; C. Lee; J. -h. Park | Texas A & M University-Kingsville,Department of Electrical Engineering and Computer Science,Kingsville,USA,TX 78363; Texas A & M University-Kingsville,Department of Electrical Engineering and Computer Science,Kingsville,USA,TX 78363; Texas A & M University-Kingsville,Department of Electrical Engineering and Computer Science,Kingsville,USA,TX 78363; Texas A & M University-Kingsville,Department of Electrical Engineering and Computer Science,Kingsville,USA,TX 78363; Soongsil University,Department of Electrical Engineering,Seoul,Korea,06978; Soongsil University,Department of Electrical Engineering,Seoul,Korea,06978 | SOUTH KOREA | |
BEST BLOCKCHAIN-BASED SECURE ENERGY TRADING IN SDN-ENABLED INTELLIGENT TRANSPORTATION SYSTEM.pdf | 2019 | ||||
BLOCKCHAIN – REVOLUTIONIZE GREEN ENERGY MANAGEMENT.pdf | 2018 | P. Ratanasopitkul | Strategic Planning Department, The Metropolitan Electricity Authority (MEA), Bangkok, Thailand | THAILAND | Blockchain;blockchain platforms;peer-to-peer transactions;smart contract;type of blockchains |
BLOCKCHAIN A PATH TO GRID MODERNIZATION AND CYBER RESILIENCY.pdf | 2018 | ||||
BLOCKCHAIN A SECURE, DECENTRALIZED, TRUSTED CYBER INFRASTRUCTURE SOLUTION FOR FUTURE ENERGY SYSTEMS.pdf | 2018 | ||||
BLOCKCHAIN AND AI AMALGAMATION FOR ENERGY CLOUD MANAGEMENT- CHALLENGES, SOLUTIONS, AND FUTURE DIRECTIONS.pdf | 2020 | ||||
BLOCKCHAIN AND COMPUTATIONAL INTELLIGENCE INSPIRED INCENTIVE-COMPATIBLE DEMAND RESPONSE IN INTERNET OF ELECTRIC VEHICLES.pdf | 2018 | Zhou, ZY; Wang, BC; Guo, YF; Zhang, Y | North China Electric Power University; University of Oslo | CHINA | Demand response; consortium blockchain; machine learning; contract theory; Internet of electric vehicles; computational intelligence |
BLOCKCHAIN AND DEMAND RESPONSE- ZERO-KNOWLEDGE PROOFS FOR ENERGY TRANSACTIONS PRIVACY.pdf | 2020 | ||||
BLOCKCHAIN AND EDGE COMPUTING BASED VEHICLE-TO-GRID ENERGY TRADING IN ENERGY INTERNET.pdf | 2018 | Zhou, ZY; Tan, L; Xu, G | North China Electric Power University | CHINA | |
Blockchain and energy A bibliometric analysis and review.pdf | 2020 | Ante, L; Steinmetz, F; Fiedler, I | University of Hamburg Germany | GERMANY | Distributed ledger; Energy markets; Smart grids; Electricity; Energy trading; Microgrids; Data privacy; Social network analysis; Bitcoin |
BLOCKCHAIN AND FUZZY LOGIC APPLICATION IN EV’S CHARGING.pdf | 2020 | C. Lazaroiu; M. Roscia; S. Saadatmandi | Politehnica of Bucharest,Bucharest,Romania; University of Bergamo,Bergamo,Italy; University of Bergamo,Bergamo,Italy | ITALY OMAN ROMANIA | Electric Vehicles;Smart Grid;Fuzzy logic;Blockchain |
Blockchain and Internet of Things Applications and practices.pdf | 2021 | ||||
Blockchain and Internet of Things for Electrical Energy.pdf | 2021 | ||||
Blockchain and Multiple Linear Regression-based Energy Trading Scheme for Electric Vehicles.pdf | 2021 | Kakkar R., Gupta R., Obaidiat M.S., Tanwar S. | Nirma University, Institute of Technology, Department of Computer Science and Engineering, Gujarat, India; University of Sharjah, College of Computing and Information, United Arab Emirates | INDIA UNITED ARAB EMIRATES | Blockchain; Electric vehicle; Linear regression |
Blockchain and renewable energy Integration challenges in circular economy era.pdf | 2021 | Yildizbasi, A | Antalya Training & Research Hospital; Yildirim Beyazit University Turkey | TURKEY | Blockchain; Renewable energy; Circular economy; Energy policy; Pythagorean fuzzy AHP |
BLOCKCHAIN AND SMART CONTRACT BASED DECENTRALIZED ENERGY TRADING PLATFORM.pdf | 2020 | S. Suthar; N. M. Pindoriya | Indian Institute of Technology Gandhinagar,Electrical Engineering,Gujarat; Indian Institute of Technology Gandhinagar,Electrical Engineering,Gujarat | INDIA | blockchain;decentralized energy trading;ethereum;smart contract |
BLOCKCHAIN AND SMART METERING TOWARDS SUSTAINABLE PROSUMERS.pdf | 2018 | Lazaroiu, GC; Roscia, M | Polytechnic University of Bucharest; University of Bergamo Romania Italy | ITALY OMAN ROMANIA | Smart Grid; prosumer; smart metering; RES; EVs; smart devices; IoT; smart home; Blockchain; REScoin |
BLOCKCHAIN APPLICABILITY USING SMART POWER MANAGEMENT SEALEDGRID ARCHITECTURE.pdf | 2019 | Suciu, G; Sachian, MA; Vochin, M; Dobrea, M; Beceanu, C; Iosu, R; Petrache, A | Polytechnic University of Bucharest Romania | OMAN ROMANIA | Blockchain; Security; Ethereum; Smart Power Management |
BLOCKCHAIN APPLICATION IN RENEWABLE ENERGY MICROGRIDS AN OVERVIEW OF EXISTING TECHNOLOGY TOWARDS CREATING CLIMATE - RESILIENT AND ENERGY INDEPENDENT COMMUNITIES.pdf | 2019 | Svetec, E; Pasicko, R; Nad, L; Pavlin, B | University of Zagreb Croatia | CROATIA | Blockchain technology, Emerging technologies, Microgrid; P2P transaction; Prosumer; Renewable energy sources, Sustainability |
BLOCKCHAIN APPLICATIONS - USAGE IN DIFFERENT DOMAINS.pdf | 2019 | ||||
Blockchain Applications and Challenges in Smart grid.pdf | 2021 | Younes Z., Alhamrouni I., Mekhilef S., Khan M.R.B. | Electrical Enginering Section, Britsh Malaysian Institute, Universiti Kuala Lumpur, Kuala Lumpur, Malaysia; University of Malaya, Dept. Electrical Enginering, Kuala Lumpur, Malaysia | MALAYSIA | Blockchain; Cyber security; Microgrid; Smart contract; Smart grid |
Blockchain applications for climate protection A global empirical investigation.pdf | 2021 | Dorfleitner, G; Muck, F; Scheckenbach, I | University of Regensburg Germany | GERMANY | Blockchain; Distributed ledger; Green finance; Consensus mechanisms; Peer-to-peer transactions; Sustainability goals |
BLOCKCHAIN APPLICATIONS IN MICROGRIDS AN OVERVIEW OF CURRENT PROJECTS AND CONCEPTS.pdf | 2017 | Goranovic, A; Meisel, M; Fotiadis, L; Wilker, S; Treytl, A; Sauter, T | Technische Universitat Wien; Danube University Krems Austria | AUSTRIA | Blockchain; Microgrid; P2P; Smart Contract |
BLOCKCHAIN APPLICATIONS IN POWER INDUSTRY.pdf | 2020 | Jabbarpour, MR; Joozdani, MZ; SeyedFarshi, S | Iran | IRAN | Blockchain; Power Industry; Smart Contract; Smart Grid |
Blockchain Applications in Smart Grid Systems.pdf | 2021 | Abaas, M; Singh, P; Lee, R | Villanova University United States | UNITED STATES | Blockchain; Cybersecurity; Data Management; Energy Trading; Smart Grid; Power Grid Resilience |
BLOCKCHAIN APPLICATIONS IN SMART GRID-REVIEW AND FRAMEWORKS.pdf | 2019 | A. S. Musleh; G. Yao; S. M. Muyeen | School of Electrical Engineering and Telecommunications, University of New South Wales, Sydney, NSW, Australia; Sino-Dutch Mechatronics Engineering Department, Shanghai Maritime University, Shanghai, China; School of Electrical Engineering Computing and Mathematical Sciences, Curtin University, Perth, WA, Australia | AUSTRALIA CHINA | Blockchain applications;cyber-physical security;energy trading;electric vehicles;microgrid monitoring and control;smart grids |
BLOCKCHAIN ARCHITECTURES FOR P2P ENERGY TRADING BETWEEN NEIGHBORS.pdf | 2019 | Suk, LB; Geun, SJ; Jun, MS; Hwan, PI; Wook, JJ | Sogang University south Korea | SOUTH KOREA | blockchain; energy trading; p2p trading; smart contract |
BLOCKCHAIN AS KEY ENABLING TECHNOLOGY FOR FUTURE ELECTRIC ENERGY EXCHANGE A VISION.pdf | 2020 | A. Baggio; F. Grimaccia | Department of Energy, Politecnico di Milano, Milan, Italy; Department of Energy, Politecnico di Milano, Milan, Italy | ITALY | Blockchain;distributed ledger technology;distributed energy resources;embedded software;smart inverters;digital energy |
BLOCKCHAIN ASSEMBLAGES WHITEBOXING TECHNOLOGY AND TRANSFORMING INFRASTRUCTURAL IMAGINARIES.pdf | 2019 | Jabbar K., Bjørn P. | Department of Computer Science, University of Copenhagen, Copenhagen, Denmark | DENMARK | Assemblages; Blockchain; Cryptocurrency; Embeddedness; Entrepreneurship; Information infrastructures; Renewable energy; Sociomaterial |
BLOCKCHAIN AUDITING TECHNOLOGY FOR INTER-PROVINCIAL GENERATION RIGHT TRADING.pdf | 2019 | Lv, JH; Zhou, L; Liu, S; Zhang, S; Si, LQ; Li, GD; Chen, AL | China | CHINA | |
BLOCKCHAIN BASED AUTONOMOUS SELECTION OF ELECTRIC VEHICLE CHARGING STATION.pdf | 2016 | Pustišek M., Kos A., Sedlar U. | Faculty of Electrical Engineering, University of Ljubljana, Ljubljana, Slovenia | SLOVENIA | Autonomous negotiation; Blockchain; Charging station; Electric vehicle; Smart contract; UML |
BLOCKCHAIN BASED BALANCING OF ELECTRICITY DEMAND AND SUPPLY.pdf | 2020 | ||||
BLOCKCHAIN BASED DECENTRALIZED FRAMEWORK FOR ENERGY DEMAND RESPONSE MARKETPLACE.pdf | 2020 | V. Deshpande; L. George; H. Badis; A. A. Desta | LIGM, UPE, ESIEE Paris,Noisy-le-Grand,France; LIGM, ESIEE Paris,Noisy-le-Grand,France; LIGM, UPEM,Champs-sur-Marne,France; LIGM, ESIEE Paris,Noisy-le-Grand,France | FRANCE | blockchain;demand response;energy;smart contracts;escrow accounts;secure element;allotment model |
Blockchain based decentralized local energy flexibility market.pdf | 2021 | Antal, C; Cioara, T; Antal, M; Mihailescu, V; Mitrea, D; Anghel, I; Salomie, I; Raveduto, G; Bertoncini, M; Croce, V; Bragatto, T; Carere, F; Bellesini, F | Technical University of Cluj Napoca Romania Italy | ITALY OMAN ROMANIA | Local flexibility market; Peer-to-peer flexibility trading; Blockchain; Bids and offers matching; Oracles |
BLOCKCHAIN BASED DECENTRALIZED MANAGEMENT OF DEMAND RESPONSE PROGRAMS IN SMART ENERGY GRIDS.pdf | 2018 | ||||
BLOCKCHAIN BASED DEVICE IDENTIFICATION AND AUTHENTICATION IN A SMART GRID.pdf | 2020 | V. Dehalwar; M. L. Kolhe; S. Solanki; M. K. Jhariya; K. Ogura | Maulana Azad National Institute of Technology,Bhopal,India; University of Agder, Faculty of Engineering and Science,Kristiansand,Norway,NO 4604; Maulana Azad National Institute of Technology,Bhopal,India; Maulana Azad National Institute of Technology,Bhopal,India; Kyushu Sangyo University,Fukuoka,Japan | INDIA JAPAN NORWAY | Blockchian;Identity Management;Authentication;Smart Grid;Security |
BLOCKCHAIN BASED DISTRIBUTED CONSENSUS FOR BYZANTINE FAULT TOLERANCE IN PMU NETWORK.pdf | 2019 | Iyer S., Thakur S., DIxit M., Agrawal A., Katkam R., Kazi F. | Centre of Excellence (CoE) in Complex and Non-linear Dynamical Systems (CNDS), Veermata Jijabai Technological Institute, Mumbai, India | INDIA | Blockchain; Consensus Protocol; Ethereum; Smart Grids |
BLOCKCHAIN BASED DISTRIBUTED CONTROL SYSTEM FOR EDGE COMPUTING.pdf | 2017 | Stanciu, A | National Institute R&D Informatics Bucharest Romania | OMAN ROMANIA | edge computing; IoT; blockchain; smart contracts; hierarchical distributed control system |
BLOCKCHAIN BASED DOMESTIC APPLIANCES SCHEDULING IN COMMUNITY MICROGRIDS.pdf | 2019 | M. Afzal; K. Umer; W. Amin; M. Naeem; D. Cai; Z. Zhenyuan; Q. Huang | Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China; Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China; Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China; Department of Electrical and Computer Engineering, COMSATS University Islamabad, Pakistan; Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China; Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China; Sichuan Provincial Key Lab of Power System Wide-Area Measurement and Control, School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China, Chengdu, 611731, China | CHINA PAKISTAN | |
Blockchain Based Energy Management System A Proposed Model.pdf | 2021 | ||||
BLOCK-CHAIN BASED ENERGY TRADING IN ADN WITH ITS PROBABLE IMPACT ON AGGREGATED LOAD PROFILE AND AVAILABLE DISTRIBUTION CAPABILITY.pdf | 2020 | Shukla D., Singh S., Singh S.P., Thakur A.K., Singh S.P. | IIT (BHU) Varanasi, Dept. of Electrical Engineering, Varanasi, India; Arya College of Engineering and IT, Dept. of Electrical Engineering, India | INDIA | ADN (Active Distribution Network); Blockchain; DERS (Distributed Energy Storage); Electric Vehicles; Transactive Energy |
BLOCKCHAIN BASED ENERGY TRADING MODEL FOR ELECTRIC VEHICLE CHARGING SCHEMES.pdf | 2018 | ||||
BLOCKCHAIN BASED ENERGY TRADING.pdf | 2018 | Kodali, RK; Yerroju, S; Yogi, BYK | National Institute of Technology (NIT System); National Institute of Technology Warangal; National Institute of Technology (NIT System); National Institute of Technology Andhra Pradesh India | INDIA | |
BLOCKCHAIN BASED METERING AND BILLING SYSTEM PROPOSAL WITH PRIVACY PROTECTION FOR THE ELECTRIC NETWORK.pdf | 2019 | A. Ö. Gür; Ş. Öksüzer; E. Karaarslan | Department of Computer Engineering, Muğla Sttki Koçman University, Muğla, Turkey; Department of Computer Engineering, Muğla Sttki Koçman University, Muğla, Turkey; Department of Computer Engineering, Muğla Sttki Koçman University, Muğla, Turkey | TURKEY | blockchain;IoT;privacy |
BLOCKCHAIN BASED POWER TRANSACTION ASYNCHRONOUS SETTLEMENT SYSTEM.pdf | 2020 | S. Ai; D. Hu; T. Zhang; Y. Jiang; C. Rong; J. Cao | Research Institute of Information Technology, Tsinghua University,Beijing,China; MingByte Technology (Qingdao) Co., Ltd./Qingdao University of Technology,Blockchain Innovation Lab/School of information and control engineering,Qingdao,China; MingByte Technology (Qingdao) Co., Ltd./Shandong University,Blockchain Innovation Lab/School of Computer Science and Technology,Qingdao,China; MingByte Technology (Qingdao) Co., Ltd.,Blockchain Innovation Lab,Qingdao,China; University of Stavanger,Department of Electrical Engineering and Computer Science,Stavanger,Norway; Research Institute of Information Technology, Tsinghua University,Beijing,China | CHINA NORWAY | energy internet;micro grid;blockchain;power transaction |
Blockchain Based Secure Data Aggregation and Distributed Power Dispatching for Microgrids.pdf | 2021 | Luo, XY; Xue, KP; Xu, J; Sun, QB; Zhang, YD | Chinese Academy of Sciences; University of Science & Technology of China, CAS; City University of Hong Kong; Chinese Academy of Sciences; University of Science & Technology of China, CAS; Chinese Academy of Sciences; University of Science & Technology of China, CAS | CHINA HONG KONG | Microgrids; Dispatching; Blockchains; Data aggregation; Smart contracts; Encryption; Data privacy; Blockchain; microgrid; smart contract; data aggregation; privacy preserving; power dispatching |
Blockchain Based Service Restoration in a Power Distribution System During Crisis.pdf | 2021 | Khalid S., Ahmad I. | University of Texas at Arlington, Dept. of Cse, Arlington, United States; National University of Sciences and Technology, Islamabad, Pakistan | PAKISTAN UNITED STATES | blockchain; distribution system; energy donation; energy sharing; microgrid; optimization; proof-of-welfare (PoWel); service restoration; Smart grid |
BLOCKCHAIN BASED SMART CONTRACTS FOR INTERNET OF MEDICAL THINGS IN E-HEALTHCARE.pdf | 2020 | Pee S.J., Kang E.S., Song J.G., Jang J.W. | Department of Electronic Engineering, Sogang University, Seoul, South Korea | SOUTH KOREA | Blockchain; Energy Trading; ERC20 Token; Smart City; Smart Contract |
BLOCKCHAIN BASED SUSTAINABLE LOCAL ENERGY TRADING CONSIDERING HOME ENERGY MANAGEMENT AND DEMURRAGE MECHANISM.pdf | 2019 | Yahaya, AS; Javaid, N; Alzahrani, FA; Rehman, A; Ullah, I; Shahid, A; Shafiq, M | COMSATS University Islamabad (CUI); Umm Al Qura University; Yeungnam University Pakistan Korea Saudi Arabia | SOUTH KOREA PAKISTAN SAUDI ARABIA | blockchain; HEM; optimization; local energy market; decentralization; peer to peer |
BLOCKCHAIN BASED TRADING PLATFORM FOR ELECTRIC VEHICLE CHARGING IN SMART CITIES.pdf | 2020 | N. Lasla; M. Al-Ammari; M. Abdallah; M. Younis | Division of Information and Computing Technology, College of Science and Engineering, Hamad Bin Khalifa University, Doha, Qatar; Division of Information and Computing Technology, College of Science and Engineering, Hamad Bin Khalifa University, Doha, Qatar; Division of Information and Computing Technology, College of Science and Engineering, Hamad Bin Khalifa University, Doha, Qatar; Department of Computer Science and Electrical Engineering, University of Maryland, Baltimore County, Baltimore, MD, USA | QATAR | Electric vehicle;P2P energy trading;auction;blockchain;smart contracts |
BLOCKCHAIN BASED TRANSACTIVE ENERGY SYSTEMS FOR VOLTAGE REGULATION IN ACTIVE DISTRIBUTION NETWORKS.pdf | 2019 | Saxena, S; Farag, HEZ; Turesson, H; Kim, H | York University - Canada; York University - Canada | CANADA | voltage control; distribution networks; distributed power generation; power grids; protocols; smart power grids; multi-agent systems; grid computing; power distribution control; contracts; agent services; contract net protocol; smart contract; blockchain based transactive energy systems; active distribution networks; modern mechanisms; electric power systems; disparate control agents; distributed generation units; energy transactions; ancillary services; crucial ancillary grid service; contract auditability; blockchain technology; trustless transactions; persistent transactions; blockchain based TES; voltage regulation services; auditable reputation rating; voltage violation; penalise reputation ratings |
BLOCKCHAIN BASED UNIFORM PRICE DOUBLE AUCTIONS FOR ENERGY MARKETS.pdf | 2019 | Foti M., Vavalis M. | Department of Electrical and Computer Engineering, University of Thessaly, Volos, 38221, Greece; WSO2 Inc., 787 Castro Street, Mountain View, CA 94041, United States | GREECE UNITED STATES | Blockchain; Distributed ledger technology; Double auction; Energy market; Smart grid |
Blockchain Checksum for Establishing Secure Communications for Digital Twin Technology.pdf | 2021 | ||||
BLOCKCHAIN COMBINED WITH SMART CONTRACT TO KEEP SAFETY ENERGY TRADING FOR AUTONOMOUS VEHICLES.pdf | 2019 | ||||
Blockchain Consensus An Overview of Alternative Protocols.pdf | 2021 | ||||
BLOCKCHAIN DRIVEN PLATFORM FOR ENERGY DISTRIBUTION IN A MICROGRID.pdf | 2019 | ||||
BLOCKCHAIN- ELEMENTS OF PHYSICAL ARCHITECTURE, EMPOWERING FEATURES AND APPLICATIONS IN THE INDIAN POWER SECTOR.pdf | 2020 | ||||
BLOCKCHAIN ENABLED DISTRIBUTED DEMAND SIDE MANAGEMENT IN COMMUNITY ENERGY SYSTEM WITH SMART HOMES.pdf | 2020 | ||||
BLOCKCHAIN ENERGY BLOCKCHAIN IN FUTURE ENERGY SYSTEMS.pdf | 2020 | ||||
BLOCKCHAIN ENERGY MARKET PLACE EVALUATION AN AGENT-BASED APPROACH.pdf | 2018 | ||||
BLOCKCHAIN EVOLUTION FROM BITCOIN TO FORENSIC IN SMART GRIDS.pdf | 2018 | ||||
Blockchain for Cybersecurity in Smart Grid A Comprehensive Survey.pdf | 2020 | Zhuang, P; Zamir, T; Liang, H | University of Alberta Canada | CANADA | Smart grids; Blockchain; Distributed ledger; Communication networks; Cyberattack; Distributed databases; Blockchain; cybersecurity; resiliency; smart contract; smart grid |
BLOCKCHAIN FOR DECENTRALIZED TRANSACTIVE ENERGY MANAGEMENT SYSTEM IN NETWORKED MICROGRIDS.pdf | 2019 | ||||
BLOCKCHAIN FOR EU ELECTRICITY MARKET.pdf | 2020 | Crasta, C; Agabus, H; Palu, I | Estonia | ESTONIA | blockchain; electricity system; electricity market; end-user; decentralized; distributed energy resources (DERs); distributed generation; renewable energy sources (RES) |
BLOCKCHAIN FOR INDUSTRY 4.0 A COMPREHENSIVE REVIEW.pdf | 2020 | ||||
BLOCKCHAIN FOR PEER-TO-PEER TRANSACTIVE ENERGY TRADING IN NETWORKED MICROGRIDS- PROVIDING AN EFFECTIVE AND DECENTRALIZED STRATEGY.pdf | 2020 | Shahidehpour, M; Yan, MY; Shikhar, P; Bahramirad, S; Paaso, A | Illinois Institute of Technology United States | UNITED STATES | Transactive energy; Economics; Power distribution; Water heating; Blockchain; Sustainable development; Resilience |
BLOCKCHAIN FOR POWER SYSTEMS CURRENT TRENDS AND FUTURE APPLICATIONS.pdf | 2019 | Di Silvestre, ML; Gallo, P; Guerrero, JM; Musca, R; Sanseverino, ER; Sciume, G; Vasquez, JC; Zizzo, G | University of Palermo; Aalborg University Italy Denmark | DENMARK ITALY | Peer-to-peer; Energy blockchain; Energy market; Supply chain management; Aggregation; Decentralized control; Decentralized management; Review |
BLOCKCHAIN FOR SMART CITIES A REVIEW OF ARCHITECTURES, INTEGRATION TRENDS AND FUTURE RESEARCH DIRECTIONS.pdf | 2020 | ||||
BLOCKCHAIN FOR SMART GRID RESILIENCE EXCHANGING DISTRIBUTED ENERGY AT SPEED, SCALE AND SECURITY.pdf | 2017 | M. Mylrea; S. N. G. Gourisetti | Pacific Northwest National Laboratory; Pacific Northwest National Laboratory United States | UNITED STATES | Blockchain;resilience;transactive energy;smart grid;cybersecurity;grid cybersecurity;cryptography;smart contracts |
BLOCKCHAIN FOR SUPPLY CHAIN CYBERSECURITY, OPTIMIZATION AND COMPLIANCE.pdf | 2018 | M. Mylrea; S. N. G. Gourisetti | Pacific Northwest National Laboratory; Pacific Northwest National Laboratory United States | UNITED STATES | Blockchain;NERC CIP;cybersecurity;supply chain;cryptography;internet of things;data provenance;data management;electricity infrastructure;industrial control systems;IoT;cyber-physical security |
Blockchain for Transacting Energy and Carbon Allowance in Networked Microgrids.pdf | 2021 | Yan, MY; Shahidehpour, M; Alabdulwahab, A; Abusorrah, A; Gurung, N; Zheng, HH; Ogunnubi, O; Vukojevic, A; Paaso, EA | Illinois Institute of Technology; King Abdulaziz University; King Abdulaziz University; King Abdulaziz University Saudi Arabia united States | SAUDI ARABIA UNITED STATES | Carbon; Transactive energy; Blockchains; Games; Carbon dioxide; Distribution networks; Resource management; Transacting energy and carbon market; networked microgrids; blockchain; cooperative game with externalities; two-stage payoff allocation problem |
BLOCKCHAIN FRAMEWORK FOR PEER-TO-PEER ENERGY TRADING WITH CREDIT RATING.pdf | 2019 | Yang J., Paudel A., Gooi H.B. | School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore, Singapore | SINGAPORE | Blockchain; credit rating; distribution network; peer-to-peer energy trading |
BLOCKCHAIN IN ENERGY EFFICIENCY POTENTIAL APPLICATIONS AND BENEFITS.pdf | 2019 | Khatoon, A; Verma, P; Southernwood, J; Massey, B; Corcoran, P | Ireland | IRELAND | energy efficiency market; blockchain; policy and regulation; security and transparency; smart contracts |
BLOCKCHAIN MEETS AMI TOWARDS SECURE ADVANCED METERING INFRASTRUCTURES.pdf | 2020 | Houda Z.A.E., Hafid A., Khoukhi L. | University of Montreal, Department of Computer Science and Operational Research, Canada; ICD/ERA, University of Technology of Troyes, France | CANADA FRANCE | AMI; Blockchain.; SG; Smart contract |
BLOCKCHAIN MINING OF CRYPTOCURRENCIES AS CHALLENGE AND OPPORTUNITY FOR RENEWABLE ENERGY.pdf | 2018 | Rusovs, D; Stanka, P; Jaundalders, S | Riga Technical University Latvia | LATVIA | blokchain; bitcoin; mining; biogeneration; feed-in tariff; trigeneration |
BLOCKCHAIN MOBILITY SOLUTION FOR CHARGING TRANSACTIONS OF ELECTRICAL VEHICLES.pdf | 2020 | ||||
BLOCKCHAIN OUTLOOK FOR DEPLOYMENT OF IOT IN DISTRIBUTION NETWORKS AND SMART HOMES.pdf | 2020 | Hosseinian H., Shahinzadeh H., Gharehpetian G.B., Azani Z., Shaneh M. | Department of Electrical Engineering, Amirkabir University of Technology (Tehran Polytechnic), Tehran, Iran; Department of Electrical Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran; Smart Microgrid Research Center, Najafabad Branch, Islamic Azad University, Najafabad, Iran | IRAN | Blockchain; Consensus; Home appliances; Internet of things (IoT); Renewable energy; Smart grid |
BLOCKCHAIN SCHEME BASED ON EVOLUTIONARY PROOF OF WORK.pdf | 2019 | ||||
Blockchain System Defensive Overview for Double-Spend and Selfish Mining Attacks A Systematic Approach.pdf | 2020 | K. Nicolas; Y. Wang; G. C. Giakos; B. Wei; H. Shen | Department of Electrical and Computer Engineering, Manhattan College, New York, NY, USA; Department of Electrical and Computer Engineering, Manhattan College, New York, NY, USA; Department of Electrical and Computer Engineering, Manhattan College, New York, NY, USA; Department of Computer Science, Texas Christian University, Fort Worth, TX, USA; Electrical and Computer Engineering Department, The University of Alabama in Huntsville, Huntsville, AL, USA United States | UNITED STATES | Blockchain;double-spend attack;selfish mining attack;systematic review |
BLOCKCHAIN TECHNOLOGY AND RENEWABLE ENERGY ACCESS A CASE FOR SUB-SAHARAN AFRICA.pdf | 2019 | Levi-Oguike, J; Sandoval, D; Ntagwirumugara, E | University of Rwanda | RWANDA | energy; energy efficiency; Africa; blockchain; sustainable development |
BLOCKCHAIN TECHNOLOGY APPLICATION IN IMPROVING OF ENERGY EFFICIENCY AND POWER QUALITY.pdf | 2019 | Zamfirescu A., Suhan C., Golovanov N. | UPB, Romania | OMAN ROMANIA | Blockchain; Electric Vehicles (EV); Energy Efficiency; IoT (Internet of Things); Micro Grid; Power Grid; Power Quality; Smart Grid |
Blockchain Technology Applied to Energy Demand Response Service Tracking and Data Sharing.pdf | 2021 | Lucas, A; Geneiatakis, D; Soupionis, Y; Nai-Fovino, I; Kotsakis, E | European Commission Joint Research Centre; EC JRC ISPRA Site Italy | ITALY | demand response; flexibility provision; blockchain; distributed ledger technology; hyperledger; data sharing coordination |
BLOCKCHAIN TECHNOLOGY BASED DECENTRALIZED ENERGY TRADING FOR MULTIPLE-MICROGRID SYSTEMS.pdf | 2019 | T. Li; W. Zhang; N. Chen; M. Qian; Y. Xu | School of Electrical Engineering and Automation Harbin Institute of Technology,Harbin,China; School of Electrical Engineering and Automation Harbin Institute of Technology,Harbin,China; State Key Laboratory of Operation and Control of Renewable Energy & Storage Systems China EPRI,Nanjing,China; State Key Laboratory of Operation and Control of Renewable Energy & Storage Systems China EPRI,Nanjing,China; University of Central Florida,Department of Electrical Engineering & Computer Science,Orlando,USA | CHINA | decentralized energy trading;Multi-Microgrid System;blockchain technology;peer-to-peer energy trading |
BLOCKCHAIN TECHNOLOGY FOR FINANCIAL SERVICES FACILITATION IN RES INVESTMENTS.pdf | 2020 | F. Bosco; V. Croce; G. Raveduto | Engineering Ingegneria Informatica S.p.A., Research and Development Laboratory, Palermo, Italy; Engineering Ingegneria Informatica S.p.A., Research and Development Laboratory, Palermo, Italy; Engineering Ingegneria Informatica S.p.A., Research and Development Laboratory, Palermo, Italy | ITALY | Blockchain;Financial services;Smart contracts;Renewable Energy Sources;Peer-to-Peer Marketplace |
BLOCKCHAIN TECHNOLOGY IN SMART CITY A NEW OPPORTUNITY FOR SMART ENVIRONMENT AND SMART MOBILITY.pdf | 2019 | ||||
BLOCKCHAIN TECHNOLOGY IN THE ENERGY SECTOR A SYSTEMATIC REVIEW OF CHALLENGES AND OPPORTUNITIES.pdf | 2019 | Andoni, M; Robu, V; Flynn, D; Abram, S; Geach, D; Jenkins, D; McCallum, P; Peacock, A | Heriot Watt University; Durham University; Heriot Watt University United Kingdom | UNITED KINGDOM | Blockchain; Distributed ledger; Energy decentralisation; Peer-to-peer energy trading; Prosumer; Renewable energy |
BLOCKCHAIN TECHNOLOGY TOWARD GREEN IOT OPPORTUNITIES AND CHALLENGES.pdf | 2019 | Sharma P.K., Kumar N., Park J.H. | Department of Multimedia Engineering, Dongguk University, Seoul, South Korea; Computer Science and Engineering Department, Thapar Institute of Engineering and Technology, India; Department of Computer Science and Engineering, Seoul National University of Science and Technology (SeoulTech), Seoul, South Korea | INDIA SOUTH KOREA | |
BLOCKCHAIN TRILEMMA SOLVER ALGORAND HAS DILEMMA OVER UNDECIDABLE MESSAGES.pdf | 2019 | Conti M., Gangwal A., Todero M. | Department of Mathematics, University of Padua, Italy; PwC Advisory SpA Italy, Cyber Security, Italy | ITALY | Altcoin; Bitcoin; Blockchain; Consensus |
Blockchain_Applications_and_Challenges_in_Smart_grid.pdf | 2021 | ||||
Blockchain_Based_Data_and_Energy_Trading_in_Internet_of_Electric_Vehicles.pdf | 2020 | ||||
Blockchain_for_Electric_Vehicles_Energy_Trading_Requirements_Opportunities_and_Challenges.pdf | 2021 | ||||
Blockchain_for_Future_Smart_Grid_A_Comprehensive_Survey.pdf | 2020 | ||||
Blockchain-and-internet-of-things-for-electrical-energy-decentralization-A-review-and-system-architectureEnergies .pdf | 2021 | ||||
BLOCKCHAIN-ASSISTED CROWDSOURCED ENERGY SYSTEMS.pdf | 2018 | Wang, S; Taha, AF; Wang, JH | University of Texas System; University of Texas at San Antonio (UTSA); Southern Methodist University united states | UNITED STATES | |
BLOCKCHAIN-ASSISTED DECENTRALIZED VIRTUAL PROSUMER GROUPING FOR P2P ENERGY TRADING.pdf | 2020 | Ali F.S., Aloqaily M., Ozkasap O., Bouachir O. | Koc University, Department of Computer Engineering, Istanbul, Turkey; College of Engineering, Al Ain University, United Arab Emirates; College of Technological Innovation (CTI), Zayed University, United Arab Emirates | TURKEY UNITED ARAB EMIRATES | Blockchain; distributed ledger; P2P energy trading; prosumer grouping; prosumer management |
BLOCKCHAIN-BASED AND MULTI-LAYERED ELECTRICITY IMBALANCE SETTLEMENT ARCHITECTURE.pdf | 2018 | P. Danzi; S. Hambridge; Č. Stefanović; P. Popovski | Department of Electronic Systems, Aalborg University, Denmark; Grid Singularity GmbH, Germany; Department of Electronic Systems, Aalborg University, Denmark; Department of Electronic Systems, Aalborg University, Denmark | DENMARK GERMANY | |
BLOCKCHAIN-BASED ANOMALY DETECTION OF ELECTRICITY CONSUMPTION IN SMART GRIDS.pdf | 2020 | Li, M; Zhang, KL; Liu, JM; Gong, HX; Zhang, ZJ | Hefei University of Technology; Hefei University of Technology; Hefei University of Technology; University of Auckland; Beijing Institute of Technology; University of Auckland China New Zealand | CHINA NEW ZEALAND | Smart grids; Electricity consumption; Anomaly detection; Blockchain |
BLOCKCHAIN-BASED ANONYMOUS AUTHENTICATION WITH KEY MANAGEMENT FOR SMART GRID EDGE COMPUTING INFRASTRUCTURE.pdf | 2019 | Wang, J; Wu, LB; Choo, KKR; He, DB | Wuhan University; Peng Cheng Laboratory; Wuhan University; Wuhan University; University of Texas System; University of Texas at San Antonio (UTSA); Wuhan University China United States | CHINA UNITED STATES | Protocols; Smart grids; Blockchain; Authentication; Edge computing; Smart meters; Authentication; blockchain (BC); conditional anonymity; edge computing; revocation; smart grid |
BLOCKCHAIN-BASED CHARGING COORDINATION MECHANISM FOR SMART GRID ENERGY STORAGE UNITS.pdf | 2019 | Baza M., Nabil M., Ismail M., Mahmoud M., Serpedin E., Ashiqur Rahman M. | Department of Electrical and Computer Engineering, Tennessee Tech University, Cookeville, TN, United States; Electrical and Computer Engineering, Texas A and M University at Qatar, Doha, Qatar; Department of Electrical and Computer Engineering, Florida International University, Miami, FL, United States | QATAR UNITED STATES | Blockchain; Charging; Decentralized system; Energy storage units; Privacy-preservation; Smart grid |
BLOCKCHAIN-BASED COMMUNICATION AND DATA SECURITY FRAMEWORK FOR IOT-ENABLED MICRO SOLAR INVERTERS.pdf | 2019 | Sinha, U; Hadi, AA; Faika, T; Kim, T | Texas A&M University System; Texas A&M University Kingsville united states | UNITED STATES | Blockchain; Hyperledger-Fabric; Internet of Things; IoT; micro solar inverter; smart contract |
Blockchain-based decentralized energy management platform for residential distributed energy resources in a virtual power plant.pdf | 2021 | Yang Q., Wang H., Wang T., Zhang S., Wu X., Wang H. | College of Electronics and Information Engineering (CEI), Shenzhen University, Shenzhen, Guangdong Province, China; Department of Data Science and AI, Faculty of Information Technology, Monash University, Melbourne, Victoria, Australia; Stanford Sustainable Systems Lab, Stanford UniversityCA 94305, United States | AUSTRALIA CHINA UNITED STATES | Blockchain; Distributed energy resource (DER); Distributed optimization; Energy management; Smart grid; Virtual power plant (VPP) |
Blockchain‑Based Decentralized Lightweight Control Access Scheme for Smart Grids.pdf | 2021 | ||||
Blockchain-based Decentralized Transactive Energy Auction Model with Demand Response.pdf | 2021 | Kalakova, A; Zhanatbekov, A; Surash, A; Nunna, HSVSK; Doolla, S | Nazarbayev University; Indian Institute of Technology System (IIT System); Indian Institute of Technology (IIT) - Bombay | INDIA | demand response; blockchain; double auction; microgrid energy trading; decentralized energy auctions |
Blockchain-Based Decentralized Virtual Power Plants of Small Prosumers.pdf | 2021 | T. Cioara; M. Antal; V. T. Mihailescu; C. D. Antal; I. M. Anghel; D. Mitrea | Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania; Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania; Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania; Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania; Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania; Department of Computer Science, Technical University of Cluj-Napoca, Cluj-Napoca, Romania | OMAN ROMANIA | Public blockchain;virtual power plant;smart contract;small prosumers;distributed ledger technology;peer to peer energy trading |
BLOCKCHAIN-BASED DISTRIBUTED ENERGY TRADING IN ENERGY INTERNET AN SDN APPROACH.pdf | 2019 | X. Lu; L. Shi; Z. Chen; X. Fan; Z. Guan; X. Du; M. Guizani | School of Control and Computer Engineering, North China Electric Power University, Beijing, China; School of Control and Computer Engineering, North China Electric Power University, Beijing, China; School of Control and Computer Engineering, North China Electric Power University, Beijing, China; School of Control and Computer Engineering, North China Electric Power University, Beijing, China; School of Control and Computer Engineering, North China Electric Power University, Beijing, China; Department of Computer and Information Science, Temple University, Philadelphia, PA, USA; Department of Computer Science and Engineering, Qatar University, Doha, Qatar | CHINA QATAR | Software defined networking (SDN);energy Internet;blockchain;privacy-preserving |
BLOCKCHAIN-BASED DISTRIBUTED ENERGY TRADING SCHEME.pdf | 2020 | T. He; X. Gui; Z. Zhang; D. Zhou; Z. Hu; J. Chen; W. Li | University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; University of Electronic Science and Technology of China,School of Mechanical and Electrical Engineering,Chengdu,China; Sichuan LenSyn Technology Co., Ltd,Chengdu,China | CHINA | blockchain technology;distributed energy energy trading;decentralization |
BLOCKCHAIN-BASED DR LOGIC A TRADE-OFF BETWEEN SYSTEM OPERATOR’S AND CUSTOMER’S NEEDS.pdf | 2020 | P. Gallo; S. Longo; F. Montana; E. Riva Sanseverino; G. Sciume | University of Palermo,Department of Engineering,Palermo,Italy; University of Palermo,Department of Engineering,Palermo,Italy; University of Palermo,Department of Engineering,Palermo,Italy; University of Palermo,Department of Engineering,Palermo,Italy; University of Palermo,Department of Engineering,Palermo,Italy | ITALY | blockchain;demand response;energy management system;optimization;smart contract |
BLOCKCHAIN-BASED ENERGY TRADING AND LOAD BALANCING USING CONTRACT THEORY AND REPUTATION IN A SMART COMMUNITY.pdf | 2020 | A. S. Yahaya; N. Javaid; M. U. Javed; M. Shafiq; W. Z. Khan; M. Y. Aalsalem | Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Information and Communication Engineering, Yeungnam University, Gyeongsan, South Korea; Department of Computer Science & Information Systems, Farasan Networking Research Laboratory, Jazan University, Jazan, Saudi Arabia; Department of Computer Science & Information Systems, Farasan Networking Research Laboratory, Jazan University, Jazan, Saudi Arabia | PAKISTAN SAUDI ARABIA SOUTH KOREA | Blockchain;contract theory;demand response;energy;ET;EVs;information asymmetry;optimization;reputations |
BLOCKCHAIN-BASED ENERGY TRADING IN ELECTRIC-VEHICLE-ENABLED MICROGRIDS.pdf | 2020 | Islam M.M., Shahjalal M., Hasan M.K., Jang Y.M. | Kookmin University, Department of Electronics Engineering, Seoul, South Korea | SOUTH KOREA | blockchain; Electric vehicles; energy transaction |
Blockchain-based framework of power demand response in China.pdf | 2021 | ||||
Blockchain-based Local Energy Grids Advanced Use Cases and Architectural Considerations.pdf | 2021 | Peise M., Kuhlenkamp J., Busse A., Eberhardt J., Ulbricht M.-R., Tai S., Baus J., Kassebaum M., Zorner T. | Technische Universität Berlin, Information Systems Engineering, Berlin, Germany; Deutsches Forschungszentrum für Künstliche Intelligenz GmbH, Saarbrücken, Germany; Enercity AG, Hannover, Germany; Discovergy GmbH, Heidelberg, Germany | GERMANY | Architectural Implications; Blockchain; Trading Renewable Energy; Use Cases |
BLOCKCHAIN-BASED LOCAL ENERGY MARKETS DECENTRALIZED TRADING ON SINGLE-BOARD COMPUTERS.pdf | 2020 | Heck, K; Mengelkamp, E; Weinhardt, C | Helmholtz Association; Karlsruhe Institute of Technology Germany | GERMANY | Decentralization; Peer-to-peer-trading; Blockchain; Smart contract; Local energy markets; Renewable energy sources; Single-board computers |
BLOCKCHAIN-BASED MECHANISMS FOR LOCAL ENERGY TRADING IN SMART GRIDS.pdf | 2020 | ||||
BLOCKCHAIN-BASED MICROGRID MARKET AND TRADING MECHANISM.pdf | 2018 | ||||
BLOCKCHAIN-BASED MULTI-TIER DOUBLE AUCTIONS FOR SMART ENERGY DISTRIBUTION GRIDS.pdf | 2020 | M. Stübs; W. Posdorfer; S. Momeni | University of Hamburg, Security and Privacy, Vogt-Kölln-Strase 30, 22527 Hamburg; University of Hamburg, Distributed Systems, Vogt-Kölln-Strase 30, 22527 Hamburg Germany University of Hamburg, Security and Privacy, Vogt-Kölln-Strase 30, 22527 Hamburg | GERMANY | Smart Grids;Blockchain;Double Auction;Hierarchical Clustering |
Blockchain-based Networking Strategy for Privacy-Preserving Demand Side Management.pdf | 2021 | Abouyoussef M., Ismail M. | Tennessee Technological University, Department of Computer Science, Cookeville, TN, United States | UNITED STATES | Blockchain; demand side management; privacy-preserving; random number generator; smart grid |
BLOCKCHAIN-BASED PEER-TO-PEER ENERGY TRADE A CRITICAL REVIEW OF DISRUPTIVE POTENTIAL.pdf | 2019 | Johanning, S; Bruckner, T | Leipzig University Germany | GERMANY | Peer-to-Peer Energy Trade; Blockchain; Transactive Energy; Energy Internet; Review |
Blockchain-Based Peer-to-Peer Energy Trading and Charging Payment System for Electric Vehicles.pdf | 2021 | Johanning, S; Bruckner, T | Leipzig University Germany | GERMANY | Peer-to-Peer Energy Trade; Blockchain; Transactive Energy; Energy Internet; Review |
Blockchain-Based Peer-to-Peer Sustainable Energy Trading in Microgrid using Smart Contracts.pdf | 2021 | F. A. Niloy; M. A. Nayeem; M. M. Rahman; M. N. U. Dowla | American International University-Bangladesh (AIUB),Department of Computer Science and Engineering,Dhaka,Bangladesh; American International University-Bangladesh (AIUB),Department of Electrical and Electronic Engineering,Dhaka,Bangladesh; American International University-Bangladesh (AIUB),Department of Electrical and Electronic Engineering,Dhaka,Bangladesh; American International University-Bangladesh (AIUB),Department of Computer Science and Engineering,Dhaka,Bangladesh | BANGLADESH | blockchain;net metering;P2P;microgrid;power trading;smart contracts |
BLOCKCHAIN-BASED POWER TRADING PROCESS.pdf | 2019 | ||||
BLOCKCHAIN-BASED PRIVACY PROTECTION SCHEME FOR ELECTRIC ENERGY METERING DATA.pdf | 2020 | Liu T., Cao X., Li J., Wu S., Chen X., Lu Y. | Shenzhen Power Supply Bureau Co.Ltd, Shenzhen Guangdong, China; School of Cyberspace Security, Beijing University of Posts and Teleommunications, Beijing, China | CHINA | Blockchain; Existing evidence; Privacy protection; The threshold elgamal homomorphic encryption algorithm |
Blockchain-based privacy protection scheme for smart park multi-energy fusion system.pdf | 2021 | ||||
BLOCKCHAIN-BASED RENEWABLE ENERGY EXCHANGE MANAGEMENT SYSTEM.pdf | 2018 | G. Si; Y. Zhang; Y. Sun; W. Chen | State Grid Jibei Electric Power Research Institute,Beijing,10004; State Grid Jibei Electric Power Research Institute,Beijing,10004; State Grid Jibei Electric Power Research China Institute,Beijing,10004; State Grid Jibei Electric Power Research Institute,Beijing,10004 China | CHINA | Smart Park;Energy Internet;Blockchain;Privacy Protection |
Blockchain-based Reverse Auction for V2V charging in smart grid environment.pdf | 2021 | El Houda Z.A., Hafid A.S., Khoukhi L. | University of Montreal, Nrl, Department of Computer Science and Operational Research, Canada; Normandie University, Greyc Cnrs, Ensicaen, France | CANADA FRANCE | Blockchain; IoE; reverse auction; SG; V2V |
BLOCKCHAIN-BASED SCALABLE AND TAMPER-EVIDENT SOLUTION FOR REGISTERING ENERGY DATA.pdf | 2019 | ||||
Blockchain-based secure energy policy and management of renewable-based smart microgrids.pdf | 2021 | ||||
BLOCKCHAIN-BASED SMART ENERGY TRADING MOTIVATIONS AND CHALLENGES.pdf | 2019 | Amini A., Jamil N., Bohani F.A. | College of Computing and Informatics, Universiti Tenaga Nasional, Jalan IKRAM-UNITEN, Kajang, Selangor, Malaysia; Institute of Energy Infrastructure, Universiti Tenaga Nasional, Jalan IKRAM-UNITEN, Kajang, Selangor, Malaysia | MALAYSIA | Blockchain; Energy market; Energy trading; Renewable energy; Smart energy |
BLOCKCHAIN-BASED SOLAR ELECTRICITY EXCHANGE CONCEPTUAL ARCHITECTURE AND LABORATORY SETUP.pdf | 2019 | Pipattanasomporn, M; Rahman, S; Kuzlu, M | Virginia Polytechnic Institute & State University; Old Dominion University united States | UNITED STATES | blockchain; solar electricity; Hyperledger framework; peer-to-peer trading |
Blockchain-Based Stochastic Energy Management of Interconnected Microgrids Considering Incentive Price.pdf | 2021 | M. Dabbaghjamanesh; B. Wang; A. Kavousi-Fard; N. D. Hatziargyriou; J. Zhang | Department of Mechanical EngineeringDepartment of Electrical and Computer Engineering (Affiliated), The University of Texas at Dallas, Richardson, TX, USA; Tacoma Public Utilities, Tacoma, WA, USA; Department of Electrical and Electronics Engineering, Shiraz University of Technology, Shiraz, Iran; National Technical University of Athens, Athens, Greece; Department of Mechanical EngineeringDepartment of Electrical and Computer Engineering (Affiliated), The University of Texas at Dallas, Richardson, TX, USA | GREECE IRAN | Blockchain;interconnected microgrids (MGs);power grid security;priority list;uncertainty |
BLOCKCHAIN-BASED TRUSTED SHARING OF ELECTRIC ENERGY PRIVACY DATA.pdf | 2020 | Liu T., Wu S., Li J., Ma Y., Duan F., Lu Y. | Shenzhen Power Supply Bureau Co.Ltd, Shenzhen, Guangdong, China; School of Cyberspace Security, Beijing University of Posts and Telecommunications, Beijing, China | CHINA | Blockchain; Data standardization; Electric energy privacy data |
Blockchain-Based_Cyber-Physical_Security_for_Electrical_Vehicle_Aided_Smart_Grid_Ecosystem.pdf | 2021 | Kaur K., Kaddoum G., Zeadally S. | Department of Electrical Engineering École de Technologie Supérieure, Université du Québec, Montréal, QC H3C 1K3, Canada; College of Communication and Information, University of Kentucky, Lexington, KY 40506, United States | CANADA UNITED STATES | Blockchain; electric vehicles; energy security; Ethereum; privacy; smart contract; smart grid |
Blockchain-based_Decentralized_Hybrid_P2P_Energy_Trading.pdf | 2021 | ||||
Blockchain-based_Decentralized_Transactive_Energy_Auction_Model_with_Demand_Response (1).pdf | 2021 | Kalakova, A; Zhanatbekov, A; Surash, A; Nunna, HSVSK; Doolla, S | Nazarbayev University; Indian Institute of Technology System (IIT System); Indian Institute of Technology (IIT) - Bombay | INDIA | demand response; blockchain; double auction; microgrid energy trading; decentralized energy auctions |
Blockchain-Based_Electric_Vehicle_Incentive_System_for_Renewable_Energy_Consumption.pdf | 2020 | Chen, X; Zhang, TY; Ye, WX; Wang, ZW; Iu, HHC | Google Incorporated; University of Western Australia | AUSTRALIA | Electric vehicle charging; Microgrids; Pricing; Renewable energy sources; Indexes; Electric vehicle; blockchain; renewable energy; smart grids |
Blockchain-Based_Energy_Trading_in_Electric_Vehicles_Using_an_Auctioning_and_Reputation_Scheme.pdf | 2021 | ||||
Blockchain-based_Smart_Decentralized_Energy_Trading_for_Grids_with_Renewable_Energy_Systems.pdf | 2021 | ||||
Blockchain-based-decentralized-local-energy-flexibility-marketEnergy-Reports.pdf | 2021 | ||||
Blockchain-based-peer-to-peer-communication-in-autonomous-drone-operationEnergy-Reports.pdf | 2021 | ||||
Blockchainbased-peertopeer-energy-trading-and-charging-payment-system-for-electric-vehiclesSustainability-Switzerland (1).pdf | 2021 | ||||
Blockchainbased-smart-payment-scheme-of-power-infrastructure-fundsEnergy-Reports.pdf | 2021 | ||||
Blockchain-Empowered Socially Optimal Transactive Energy System Framework and Implementation.pdf | 2021 | Yang, Q; Wang, H | Shenzhen University; Shenzhen University; Monash University; Stanford University china United States | CHINA UNITED STATES | Transactive energy; Smart grids; Privacy; Load modeling; Informatics; Internet of Things; Blockchain; decentralized optimization; energy trading (ET); privacy; smart grid; transactive energy |
Blockchain-Enabled Cyber-Secure Microgrid Control Using Consensus Algorithm.pdf | 2021 | Mahmud R., Seo G.-S. | National Renewable Energy Laboratory, Power Systems Engineering Center, Golden, CO 80401, United States | UNITED STATES | |
Blockchain-Enabled Secure and Transparent Cross-Regional Model Updating and Sharing Approach in Smart Grid.pdf | 2021 | Y. Hao; H. Cao; Y. Wang; L. Xiong; X. Liu; L. Yang; J. Ni | State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University,Shaanxi Province,China,710049; State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University,Shaanxi Province,China,710049; State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University,Shaanxi Province,China,710049; State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University,Shaanxi Province,China,710049; School of Electrical Engineering, Xi'an University of Technology; School of Electrical Engineering, Xi'an University of Technology; School of Automation, Northwestern Polytechnical University,Department of Electrical Engineering,Xi'an,China,710072 | CHINA | Blockchain;Secure Model Data Sharing;Smart Contract;Smart Grid |
BLOCKCHAIN-ENABLED SECURE ENERGY TRADING WITH VERIFIABLE FAIRNESS IN INDUSTRIAL INTERNET OF THINGS.pdf | 2020 | Li, M; Hu, DH; Lal, C; Conti, M; Zhang, ZJ | Hefei University of Technology; University of Padua; Beijing Institute of Technology; University of Auckland China Italy New Zealand | CHINA ITALY NEW ZEALAND | Blockchain; energy trading; Industry 4.0; Industrial Internet of Things (IIoT); privacy; security |
BLOCKCHAIN-ENABLED TRANSACTIVE HOME ENERGY MANAGEMENT SYSTEMS IN DISTRIBUTION NETWORKS.pdf | 2020 | L. Edmonds; B. Liu; H. Zhang; C. Scoglio; D. Gruenbacher; H. Wu | Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States; Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States; Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States; Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States; Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States; Kansas State University,The Mike Wiegers Department of Electrical and Computer Engineering,Manhattan,Kansas,United States | UNITED STATES | blockchain;home energy management system;privacy;smart contract;electricity distribution networks |
BLOCKCHAIN-ENABLED TRANSACTIVE METHOD IN DISTRIBUTED SYSTEMS CONSIDERING SECURITY CONSTRAINTS.pdf | 2019 | X. Jin; C. Bai; Z. Zhang; S. Zhao; H. Wang; Z. Yan; L. Zhang; S. Chen | State Grid Energy Research, Institute Co., Ltd, Beijing, China; State Grid Energy Research, Institute Co., Ltd, Beijing, China; Zhejiang Energy Technology, Institute Co., Ltd, Hangzhou, China; Zhejiang Energy Technology, Institute Co., Ltd, Hangzhou, China; Shanghai Jiao Tong University, Shanghai, China; Shanghai Jiao Tong University, Shanghai, China; China Agricultural University, Beijing, China; Shanghai Jiao Tong University, Tsinghua Sichuan Energy, Internet Research Institute, Shanghai, China | CHINA | blockchain;energy internet;ethereum;smart contracts;distributed energy |
Blockchainenabled-energy-demand-side-management-cap-and-trade-modelEnergies (1).pdf | 2021 | ||||
BLOCKCHAIN-ENHANCED HIGH-CONFIDENCE ENERGY SHARING IN INTERNET OF ELECTRIC VEHICLES.pdf | 2020 | Sun G., Dai M., Zhang F., Yu H., Du X., Guizani M. | Key Laboratory of Optical Fiber Sensing and Communications (Ministry of Education), University of Electronic Science and Technology of China, Chengdu, China; Department of Computer and Information Sciences, Temple University, Philadelphia, PA, United States; Department of Computer Science and Engineering, Qatar University, Doha, Qatar; Peng Cheng Laboratory, Shenzhen, China | CHINA QATAR UNITED STATES | Charging/discharging decision; consortium blockchain; electric vehicles; energy trading; fog computing |
BLOCKCHAIN-POWERED APPLICATIONS FOR SMART TRANSACTIVE GRIDS.pdf | 2019 | Kouveliotis-Lysikatos, I; Kokos, I; Lamprinos, I; Hatziargyriou, N | National Technical University of Athens Greece | GREECE | energy blockchain; transactive grids; decentralized markets; ethereum; smart contracts |
BLOCKCHAIN-POWERED VALUE CREATION IN THE 5G AND SMART GRID USE CASES.pdf | 2019 | K. Valtanen; J. Backman; S. Yrjölä | VTT Technical Research Centre of Finland Ltd., Oulu, Finland; VTT Technical Research Centre of Finland Ltd., Oulu, Finland; Nokia Corporate Strategy and Development, Oulu, Finland | FINLAND | Blockchain;business models;decentralization;resource configuration;smart grid;4C typology;5G |
BLOCKCHAINS FOR DECENTRALIZED OPTIMIZATION OF ENERGY RESOURCES IN MICROGRID NETWORKS.pdf | 2017 | Munsing, E; Mather, J; Moura, S | University of California System; University of California Berkeley; University of California System; University of California Berkeley; University of California System; University of California Berkeley united states | UNITED STATES | |
BLOCKCHAINS FOR TRANSACTIVE ENERGY SYSTEMS- OPPORTUNITIES, CHALLENGES, AND APPROACHES.pdf | 2020 | ||||
BLOCKCHAIN-TECHNOLOGY IN THE ENERGY INDUSTRY- BLOCKCHAIN AS A DRIVER OF THE ENERGY REVOLUTION_ WITH FOCUS ON THE SITUATION IN GERMANY.pdf | 2020 | Mika, B; Goudz, A | University of Duisburg Essen; University of Duisburg Essen Germany | GERMANY | Energy revolution; Decentralization; Prosumer; Digitalization; Blockchain-technology; Peer-to-peer |
BlockEV Efficient and Secure Charging Station Selection for Electric Vehicles.pdf | 2021 | Danish S.M., Zhang K., Jacobsen H.-A., Ashraf N., Qureshi H.K. | FUSÉE Laboratory, École de Technologie Supérieure, Montreal, QC, Canada; Middleware Systems Research Group, University of Toronto, Toronto, ON, Canada; TSSG, Waterford Institute of Technology, Waterford, Ireland; School of Electrical Engineering and Computer Science (SEECS), National University of Sciences and Technology (NUST), Islamabad, Pakistan | CANADA IRELAND PAKISTAN | blockchain; charging station; Electric vehicles; security and privacy; smart city |
BSIS BLOCKCHAIN-BASED SECURE INCENTIVE SCHEME FOR ENERGY DELIVERY IN VEHICULAR ENERGY NETWORK.pdf | 2019 | Wang, YT; Su, Z; Zhang, N | Xi'an Jiaotong University; Shanghai University; Texas A&M University System; Texas A&M University Corpus Christi China United States | CHINA UNITED STATES | Blockchain; electric vehicles (EVs); proof of reputation (PoR); vehicular energy network (VEN); wireless power transfer |
BUILDING A COMMUNITY OF USERS FOR OPEN MARKET ENERGY.pdf | 2018 | Ferreira, JC; Martins, AL | Instituto Universitario de Lisboa; Instituto Universitario de Lisboa Portugal | PORTUGAL | blockchain; community; energy market; electric vehicle; Demand Response; gamification; microgeneration; renewable energy |
CASE STUDY OF DIRECT COMMUNICATION BASED SOLAR POWER SYSTEMS IN SUB-SAHARAN AFRICA FOR LEVELLED ENERGY COST USING BLOCKCHAIN.pdf | 2020 | Samuel O., Javaid N., Khalid R., Imran M., Guizani M. | Comsats University Islamabad, Islamabad, 44000, Pakistan; King Saud University, College of Computer and Information Sciences, Riyadh, 11451, Saudi Arabia; University of Idaho, Department of Electrical and Computer Engineering, Moscow, ID 83844, United States | PAKISTAN SAUDI ARABIA UNITED STATES | Blockchain; cryptocurrency; energy trading; fill rate; incentive mechanism; levelized cost of energy; service level and working capital |
CENTRA- CITY-SCALE ENERGY TRANSACTION APPLICATION FOR THE SMART GRID.pdf | 2020 | S. Mitra; K. Joshi; K. Ramamritham | Indian Institute of Technology,Department of Computer Science and Engineering,Bombay; Centre for Urban Science and Engineering, Indian Institute of Technology Bombay,Mumbai,India; Indian Institute of Technology,Department of Computer Science and Engineering,Bombay | INDIA | Distributed Ledger Technology;smart grid;P2P;energy sharing |
Centralized_Blockchain-Based_Energy_Trading_Platform_for_Interconnected_Microgrids.pdf | 2021 | M. R. Hamouda; M. E. Nassar; M. M. A. Salama | Electrical and Computer Engineering Department, University of Waterloo, Waterloo, Canada; Electrical and Computer Engineering Department, University of Waterloo, Waterloo, Canada; Electrical and Computer Engineering Department, University of Waterloo, Waterloo, Canada | CANADA | Trading;energy;blockchain;smart grid;market |
CHAINS OF TRUST ENERGY JUSTICE, PUBLIC ENGAGEMENT, AND THE FIRST OFFSHORE WIND FARM IN THE UNITED STATES.pdf | 2019 | Dwyer, J; Bidwell, D | University of Rhode Island United States | UNITED STATES | Block Island Wind Farm; Offshore wind; Public engagement; Trust; Chain of trust; Renewable energy |
CHALLENGES AND OPPORTUNITIES OF BLOCKCHAIN TECHNOLOGY IN THE ENERGY SECTOR.pdf | 2020 | M. Botticelli; F. Moretti; S. Pizzuti; S. Romano | Marche Polytechnic University,Information Engineering Department,Ancona,Italy; Smart Cities & Communities lab,ENEA,Rome,Italy; Smart Cities & Communities lab,ENEA,Rome,Italy; Smart Cities & Communities lab,ENEA,Rome,Italy | ITALY | Block chain;Energy Flexibility;Energy Market |
CHANGING POWER SHIFTING THE ROLE OF ELECTRICITY CONSUMERS WITH BLOCKCHAIN TECHNOLOGY – POLICY IMPLICATIONS FOR EU ELECTRICITY LAW.pdf | 2019 | Diestelmeier L. | Department of European and Economic Law and Groningen Centre of Energy Law of the University of Groningen, Oude Kijk in ‘t Jatstraat 26, Groningen, EK 9712, Netherlands | NETHERLANDS | Blockchain; Consumer; Electricity; EU law; Peer-to-peer; Smart grid |
CLOUD STORAGE. A COMPARISON BETWEEN CENTRALIZED SOLUTIONS VERSUS DECENTRALIZED CLOUD STORAGE SOLUTIONS USING BLOCKCHAIN TECHNOLOGY.pdf | 2019 | Gabriel, T; Cornel-Cristian, A; Arhip-Calin, M; Zamfirescu, A | Romania | OMAN ROMANIA | Blockchain Technology; Cloud computing; Decentralized Data Storage; Smart Grid |
Combined game model and investment decision making of power grid-distributed energy system.pdf | 2021 | ||||
Community Energy Groups Can They Shield Consumers from the Risks of Using Blockchain for Peer-to-Peer Energy Trading.pdf | 2021 | Schneiders, A; Shipworth, D | University of London; University College London United Kingdom | UNITED KINGDOM | peer-to-peer; energy trading; transactive energy; distributed ledger technology; blockchain; energy communities |
COMMUNITY ENERGY RETAIL TARIFFS IN SINGAPORE OPPORTUNITIES FOR PEER-TO-PEER AND TIME-OF-USE VERSUS VERTICALLY INTEGRATED TARIFFS.pdf | 2019 | ||||
COMPARATIVE ANALYSIS OF AUCTION MECHANISMS AND BIDDING STRATEGIES FOR P2P SOLAR TRANSACTIVE ENERGY MARKETS.pdf | 2019 | Lin J., Pipattanasomporn M., Rahman S. | Bradley Department of Electrical and Computer Engineering, Advanced Research Institute, Virginia Tech, ArlingtonVA, United States; Smart Grid Research Unit, Department of Electrical Engineering, Chulalongkorn University, Thailand | THAILAND UNITED STATES | Blockchain; Double auction; Game theory; Peer-to-Peer (P2P) energy trading; Smart contracts; Transactive energy |
COMPARATIVE ANALYSIS OF BLOCKCHAIN-BASED SMART CONTRACTS FOR SOLAR ELECTRICITY EXCHANGES.pdf | 2019 | Lin, J; Pipattanasomporn, M; Rahman, S | Virginia Polytechnic Institute & State University United States | UNITED STATES | auction mechanism; blockchain; double auction; smart contract; transactive energy |
Comparative-analysis-of-various-compensating-devices-in-energy-trading-radial-distribution-system-for-voltage-regulation-and-loss-mitigation-using-Blockchain-technology-and-Bat-AlgorithmEnergy-Reports.pdf | 2021 | Yuvaraj, T; Devabalaji, KR; Srinivasan, S; Prabaharan, N; Hariharan, R; Alhelou, HH; Ashokkumar, B | Saveetha Institute of Medical & Technical Science; Saveetha School of Engineering; Hindustan Institute of Technology & Science; Saveetha Institute of Medical & Technical Science; Saveetha School of Engineering; Shanmugha Arts, Science, Technology & Research Academy (SASTRA); University College Dublin; Thiagarajar College of Engineering United States | UNITED STATES | DG; Capacitor; DSTATCOM; Bat Algorithm; Blockchain technology; Power loss mitigation; Voltage regulation; Energy trading; Radial distribution system |
Compensation for Power Loss by a Proof-of-Stake Consortium Blockchain Microgrid.pdf | 2021 | Yang, JW; Paudel, A; Gooi, HB | Nanyang Technological University & National Institute of Education (NIE) Singapore; Nanyang Technological University | SINGAPORE | Blockchain; Microgrids; Cryptography; Pricing; Peer-to-peer computing; Smart contracts; Consortium blockchain; peer-to-peer (P2P) energy trading; power loss; pricing scheme; proof-of-stake (PoS) |
COMPETITIVE DATA TRADING IN WIRELESS-POWERED INTERNET OF THINGS (IOT) CROWDSENSING SYSTEMS WITH BLOCKCHAIN.pdf | 2018 | ||||
Comprehensive Analysis of Smart Grid Security with Intelligent Machine Learning based Framework.pdf | 2021 | ||||
CONCEPT AND IMPLEMENTATION OF BLOCKCHAIN DEMONSTRATION UNIT WITHIN THE SMART GRID.pdf | 2019 | ||||
CONCEPTUAL FRAMEWORK OF BLOCKCHAIN-BASED ELECTRICITY TRADING FOR NEIGHBORHOOD RENEWABLE ENERGY.pdf | 2018 | Zanghi E., Do Coutto Filho M.B., Stacchini De Souza J.C. | Fluminense Federal University, Rio de Janeiro, Brazil | BRAZIL | Blockchain; collaborative networks; power systems; smart grids |
Consensus Algorithms and Deep Reinforcement Learning in Energy Market A Review.pdf | 2021 | O. Jogunola; B. Adebisi; A. Ikpehai; S. I. Popoola; G. Gui; H. Gačanin; S. Ci | Department of Engineering, Manchester Metropolitan University, Manchester, U.K.; Department of Engineering, Manchester Metropolitan University, Manchester, U.K.; Department of Engineering and Mathematics, Sheffield Hallam University, Sheffield, U.K.; Department of Engineering, Manchester Metropolitan University, Manchester, U.K.; College of Telecommunication and Information Engineering, Nanjing University of Posts and Telecommunications, Nanjing, China; Institute for Communication Technologies and Embedded Systems, RWTH Aachen University, Aachen, Germany; Department of Electrical Engineering, Tsinghua University, Beijing, China | CHINA GERMANY | Artificial intelligence (AI);blockchain (BC);consensus algorithm (CA);deep reinforcement learning (DRL);distributed ledger technology (DLT);energy market;Markov decision process (MDP) |
CONSORTIUM BLOCKCHAIN FOR SECURE ENERGY TRADING IN INDUSTRIAL INTERNET OF THINGS.pdf | 2018 | Li, ZT; Kang, JW; Yu, R; Ye, DD; Deng, QY; Zhang, Y | Xiangtan University; Guangdong University of Technology; Beijing University of Posts & Telecommunications; Xiangtan University; University of Oslo china | CHINA | Blockchain; energy trading; industrial Internet of things (IIoT); security and privacy; Stackelberg game |
CONSORTIUM BLOCKCHAIN-BASED MICROGRID MARKET TRANSACTION RESEARCH.pdf | 2019 | Zhao, WT; Lv, J; Yao, XL; Zhao, JJ; Jin, ZX; Qiang, Y; Che, Z; Wei, CW | Taiyuan University of Technology; Lvliang University; Taiyuan University of Technology china | CHINA | microgrid market; electricity transaction; consortium blockchain technology; Nash game equilibrium theory |
CONSORTIUM BLOCKCHAIN-BASED V2G ENERGY TRADING SYSTEM USING TOKENS.pdf | 2020 | Hong, J; Oh, E; Yang, Y; Roh, K; Oh, M; Kim, J | Chungbuk National University Korea | SOUTH KOREA | Consortium Blockchain; EV(Electronic Vehicle); Power Load Management; Energy Trading System |
CONSUMER DEMAND FOR BLOCKCHAIN-ENABLED PEER-TO-PEER ELECTRICITY TRADING IN THE UNITED KINGDOM AN ONLINE SURVEY EXPERIMENT.pdf | 2019 | Fell, MJ; Schneiders, A; Shipworth, D | University of London; University College London United Kingdom | UNITED KINGDOM | peer-to-peer energy trading; consumer demand; distributed ledger technology; blockchain; online survey experiment |
CONTRACT BASED ENERGY BLOCKCHAIN FOR SECURE ELECTRIC VEHICLES CHARGING IN SMART COMMUNITY.pdf | 2018 | Y. Wang; Z. Su; Q. Xu; N. Zhang | Sch. of Mechatron. Eng. & Autom., Shanghai Univ., Shanghai, China; Sch. of Mechatron. Eng. & Autom., Shanghai Univ., Shanghai, China; Sch. of Mechatron. Eng. & Autom., Shanghai Univ., Shanghai, China; Dept. of Comput. Sci., Texas A&M Univ. at Corpus Christi, Corpus Christi, TX, USA | CHINA | Energy blockchain, internet of energy, smart community, electric vehicles, contract theory |
COOPERATIVE CONTROL IN AN ISLANDED MICROGRID UNDER BLOCKCHAIN-BASED MARKET OPERATION.pdf | 2019 | ||||
COOPERATIVE ENERGY MANAGEMENT OF A COMMUNITY OF SMART-BUILDINGS A BLOCKCHAIN APPROACH.pdf | 2019 | ||||
CO-SIMULATION OF ELECTRICITY DISTRIBUTION NETWORKS AND PEER TO PEER ENERGY TRADING PLATFORMS.pdf | 2019 | Hayes, BP; Thakur, S; Breslin, JG | University College Cork; National University of Ireland (NUI) Galway; National University of Ireland (NUI) Galway | IRELAND | Distribution networks; Co-simulation; Peer-to-peer energy trading; Distributed ledger; Blockchain; Microgrids; Network planning; Prosumer; Energy decentralisation |
COST ANALYSIS OF BLOCKCHAINS-BASED PEER TO PEER ENERGY TRADE.pdf | 2020 | Thakur, S; Breslin, JG | National University of Ireland (NUI) Galway | IRELAND | Peer to peer energy trade; Blockchains; Cost Analysis |
CRSM AN EFFECTIVE BLOCKCHAIN CONSENSUS RESOURCE SLICING MODEL FOR REAL-TIME DISTRIBUTED ENERGY TRADING.pdf | 2020 | ||||
CRYPTO TRADING BLOCKCHAIN ORIENTED ENERGY MARKET.pdf | 2017 | Mannaro, K; Pinna, A; Marchesi, M | University of Cagliari; University of Cagliari Italy | ITALY | Smart Grid; Energy Market; blockchain; smart contracts; renewable energy |
CRYPTOCURRENCY AS GUARANTEES OF ORIGIN SIMULATING A GREEN CERTIFICATE MARKET WITH THE ETHEREUM BLOCKCHAIN.pdf | 2017 | Castellanos, AF; Coll-Mayor, D; Notholt, JA | Germany | GERMANY | blockchain; ethereum; smart contracts; energy; guarantees of origin |
Cyber-Attack Detection and Cyber-Security Enhancement in Smart DC-Microgrid Based on Blockchain Technology and Hilbert Huang Transform.pdf | 2021 | M. Ghiasi; M. Dehghani; T. Niknam; A. Kavousi-Fard; P. Siano; H. H. Alhelou | Department of Electrical and Electronic Engineering, Shiraz University of Technology, Shiraz, Iran; Department of Electrical and Electronic Engineering, Shiraz University of Technology, Shiraz, Iran; Department of Electrical and Electronic Engineering, Shiraz University of Technology, Shiraz, Iran; Department of Electrical and Electronic Engineering, Shiraz University of Technology, Shiraz, Iran; Department of Management and Innovation Systems, University of Salerno, Salerno, Italy; School of Electrical and Electronic Engineering, University College Dublin, Dublin, Ireland | IRAN IRELAND ITALY | Smart DC-microgrid;Hilbert-Huang Transform;false data injection attack;data exchanging;blockchain |
CYBER-ATTACKS AND MITIGATION IN BLOCKCHAIN BASED TRANSACTIVE ENERGY SYSTEMS.pdf | 2020 | Barreto C., Eghtesad T., Eisele S., Laszka A., Dubey A., Koutsoukos X. | Vanderbilt University, United States; University of Houston, United States | UNITED STATES | Blockchain; Cyber-Physical System; Cybersecurity; Denial of Service; Microgrid; Transactive Energy System |
CYBERPHYSICAL BLOCKCHAIN-ENABLED PEER-TO-PEER ENERGY TRADING.pdf | 2020 | ||||
CYBER-SECURE DECENTRALIZED ENERGY MANAGEMENT FOR IOT-ENABLED ACTIVE DISTRIBUTION NETWORKS.pdf | 2018 | Li Z., Shahidehpour M., Liu X. | Robert W. Galvin Center for Electricity Innovation, Illinois Institute of Technology, Chicago, 60616, United States; College of Electrical and Information Engineering, Hunan University, Changsha, 410006, China | CHINA UNITED STATES | Active distribution network; Blockchain; Cybersecurity; Decentralized decision-making; Internet of Things; Networked microgrids; Transactive energy |
CYBERSECURITY ENHANCEMENT OF POWER TRADING WITHIN THE NETWORKED MICROGRIDS BASED ON BLOCKCHAIN AND DIRECTED ACYCLIC GRAPH APPROACH.pdf | 2019 | Wang B., Dabbaghjamanesh M., Kavousi-Fard A., Mehraeen S. | Department of Electrical and Computer Engineering, Louisiana State University, Baton Rouge, LA 70803, United States; Department of Electrical and Electronics Engineering, Shiraz University of Technology, Shiraz, 71557, Iran; Design and Optimization of Energy Systems (DOES) Laboratory, University of Texas at Dallas, Richardson, TX 75080, United States | IRAN UNITED STATES | Blockchain; cybersecurity; directed acyclic graph (DAG); energy management; networked microgrids (NMGs); uncertainty |
CYBERSECURITY FOR MICROGRID.pdf | 2020 | De Dutta S., Prasad R. | Aarhus University, CTIF Global Capsule, Herning, Denmark | DENMARK | Artificial Intelligence; Blockchain; Machine Learning; Microgrid; Smart Grid; SOAR |
CYBERSECURITY IN THE BLOCKCHAIN ERA A SURVEY ON EXAMINING CRITICAL INFRASTRUCTURE PROTECTION WITH BLOCKCHAIN-BASED TECHNOLOGY.pdf | 2019 | T. R. Vance; A. Vance | Cyber Institute,Center for Cyber Risk Research and Policy,United States of America; Cyber Institute,Center for Cyber Risk Research and Policy,United States of America | UNITED STATES | blockchain;cybersecurity;critical infrastructure;energy sector;industrial control systems;ICS;IoT;technology;telecommunications;SCADA;utilities |
DAG-BASED DISTRIBUTED LEDGER FOR LOW-LATENCY SMART GRID NETWORK.pdf | 2019 | Park, S; Kim, H | Korea University | SOUTH KOREA | smart grid; distributed ledger technology; DAG-based distributed ledger |
DAGSec A hybrid distributed ledger architecture for the secure management of the Internet of Things.pdf | 2021 | ||||
DEAL DIFFERENTIALLY PRIVATE AUCTION FOR BLOCKCHAIN-BASED MICROGRIDS ENERGY TRADING.pdf | 2019 | Hassan M.U., Rehmani M.H., Chen J. | Swinburne University of Technology, Hawthorn, VIC, Australia; Department of Computer Science, Cork Institute of Technology, Bishopstown, Cork, Ireland | AUSTRALIA IRELAND | blockchain; Differential privacy (DP); game theoretic auction; microgrid; smart grid (SG); VCG auction |
DECENTRALISED ENERGY MARKET FOR IMPLEMENTATION INTO THE INTERGRID CONCEPT - PART 2 INTEGRATED SYSTEM.pdf | 2018 | Davison, M; Cranney, J; Summers, T; Townsend, CD | University of Newcastle; Nanyang Technological University & National Institute of Education (NIE) Singapore; Nanyang Technological University | SINGAPORE | Intergrid; Decentralised Market; Network Architecture; Blockchain; Renewable Energy; Energy Markets; Transactive Energy; Peer-to-Peer Energy Trading; Microgrid |
Decentralized blockchain flexibility system for smart Grids Requirement engineering and use.pdf | 2018 | ||||
DECENTRALIZED BOTTOM-UP ENERGY TRADING USING ETHEREUM AS A PLATFORM.pdf | 2019 | ||||
Decentralized Consensus Decision-Making for Cybersecurity Protection in Multimicrogrid Systems.pdf | 2021 | ||||
DECENTRALIZED DONATION EXPERT SYSTEM TO BRING DOWN COVID-19.pdf | 2021 | ||||
DECENTRALIZED ELECTRICITY TRANSACTION MECHANISM IN DISTRIBUTION NETWORK BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2019 | ||||
Decentralized IoT Platform for Flexibility Service Providers in Power Systems.pdf | 2021 | ||||
DECENTRALIZED ON-DEMAND ENERGY SUPPLY FOR BLOCKCHAIN IN INTERNET OF THINGS A MICROGRIDS APPROACH.pdf | 2019 | ||||
DECENTRALIZED OPTIMAL POWER FLOW IN DISTRIBUTION NETWORKS USING BLOCKCHAIN.pdf | 2019 | ||||
DECENTRALIZED P2P ENERGY TRADING UNDER NETWORK CONSTRAINTS IN A LOW-VOLTAGE NETWORK.pdf | 2018 | Guerrero, J; Chapman, AC; Verbic, G | University of Sydney; University of Sydney australia | AUSTRALIA | Peer-to-peer energy trading; local market; distribution grid; smart grids; distributed energy resources; blockchain |
DECENTRALIZED PRIVACY-PRESERVING DATA AGGREGATION SCHEME FOR SMART GRID BASED ON BLOCKCHAIN.pdf | 2020 | ||||
DECENTRALIZED TRANSACTIVE ENERGY AUCTIONS WITH BANDIT LEARNING.pdf | 2018 | Z. Zhao; K. Nakayama; R. Sharma | School of Industrial Engineering, Purdue University, West Lafayette, Indiana, USA; Energy Management Department, NEC Laboratories America, California, USA; Energy Management Department, NEC Laboratories America, California, USA | INDIA | transactive energy auctions;distributed energy resources;decentralized decision-making;bandit learning;blockchain |
DECENTRALIZED TRANSACTIVE ENERGY MANAGEMENT SYSTEM FOR DISTRIBUTION SYSTEMS WITH PROSUMER MICROGRIDS.pdf | 2018 | Amanbek, Y; Tabarak, Y; Nunna, HSVSK; Doolla, S | Nazarbayev University; Indian Institute of Technology System (IIT System); Indian Institute of Technology (IIT) - Bombay | INDIA | |
DECENTRALIZING ENERGY SYSTEMS THROUGH LOCAL ENERGY MARKETS THE LAMP-PROJECT.pdf | 2018 | ||||
DEEP REINFORCEMENT LEARNING AND BLOCKCHAIN FOR PEER-TO-PEER ENERGY TRADING AMONG MICROGRIDS.pdf | 2020 | Y. Xu; L. Yu; G. Bi; M. Zhang; C. Shen | Nanjing University of Posts and Telecommunications,Nanjing,P. R. China,210003; Nanjing University of Posts and Telecommunications,Nanjing,P. R. China,210003; Nanjing University of Posts and Telecommunications,Nanjing,P. R. China,210003; Xi'an Jiaotong University,Xi'an,China,710049; Xi'an Jiaotong University,Xi'an,China,710049 | CHINA | |
Deep reinforcement learning assisted edge-terminal collaborative offloading algorithm of blockchain computing tasks for energy Internet.pdf | 2021 | Xu, SY; Liao, BX; Yang, C; Guo, SY; Hu, B; Zhao, JH; Jin, L | Beijing University of Posts & Telecommunications; State Grid Corporation of China; State Grid Corporation of China | CHINA | Blockchain; Edge-terminal collaboration; Task offloading; Deep reinforcement learning |
Deep Reinforcement Learning for Internet of Things A Comprehensive Survey.pdf | 2021 | ||||
DEEPCOIN- A NOVEL DEEP LEARNING AND BLOCKCHAIN-BASED ENERGY EXCHANGE FRAMEWORK FOR SMART GRIDS.pdf | 2019 | M. A. Ferrag; L. Maglaras | Department of Computer Science, Guelma University, Guelma, Algeria; School of Computer Science and Informatics, De Montfort University, Leicester, U.K. | ALGERIA | Blockchain;intrusion detection system (IDS), machine learning;smart grid;security |
DEMAND RESPONSE SERVICE CERTIFICATION AND CUSTOMER BASELINE EVALUATION USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | G. Sciumè; E. J. Palacios-García; P. Gallo; E. R. Sanseverino; J. C. Vasquez; J. M. Guerrero | Department of Engineering, University of Palermo, Palermo, Italy; Department of Energy Technology, Aalborg University, Aalborg, Denmark; Department of Engineering, University of Palermo, Palermo, Italy; Department of Engineering, University of Palermo, Palermo, Italy; Department of Energy Technology, Aalborg University, Aalborg, Denmark; Department of Energy Technology, Aalborg University, Aalborg, Denmark | DENMARK ITALY | Blockchain;demand response;distributed balancing;baseline;hyperledger fabric;smart contract |
DEMO EVA FAIR AND AUDITABLE ELECTRIC VEHICLE CHARGING SERVICE USING BLOCKCHAIN.pdf | 2018 | ||||
Demonstration-of-blockchain-based-peer-to-peer-energy-trading-system-with-reallife-used-PHEV-and-HEMS-charge-controlEnergies.pdf | 2019 | Matsuda, Y; Yamazaki, Y; Oki, H; Takeda, Y; Sagawa, D; Tanaka, K | University of Tokyo Japan | JAPAN | blockchain; peer to peer energy market; hardware control; demonstration experiment; home energy management systems; electric vehicles |
DEMYSTIFYING CRYPTO-MINING ANALYSIS AND OPTIMIZATIONS OF MEMORY-HARD POW ALGORITHMS.pdf | 2019 | R. Han; N. Foutris; C. Kotselidis | The University of Manchester, School of Computer Science, UK; The University of Manchester, School of Computer Science, UK; The University of Manchester, School of Computer Science, UK united kingdom | UNITED KINGDOM | Blockchain;Crypto mining;GPUs;Ethereum;Optimizations;Energy Efficiency |
DEMYSTIFYING DISTRIBUTED LEDGER TECHNOLOGIES- LIMITS, CHALLENGES, AND POTENTIALS IN THE ENERGY SECTOR.pdf | 2020 | A. Hrga; T. Capuder; I. P. Žarko | Faculty of Electrical Engineering and Computing, University of Zagreb, Zagreb, Croatia; Faculty of Electrical Engineering and Computing, University of Zagreb, Zagreb, Croatia; Faculty of Electrical Engineering and Computing, University of Zagreb, Zagreb, Croatia | CROATIA | Distributed ledger technology (DLT);energy systems;cryptocurrencies;tokenization;energy transition |
DEPET A DECENTRALIZED PRIVACY-PRESERVING ENERGY TRADING SCHEME FOR VEHICULAR ENERGY NETWORK VIA BLOCKCHAIN AND K - ANONYMITY.pdf | 2020 | Y. Long; Y. Chen; W. Ren; H. Dou; N. N. Xiong | College of Computer Science and Technology, Guizhou University, Guiyang, China; College of Computer Science and Technology, Guizhou University, Guiyang, China; State Key Laboratory of Public Big Data, Guizhou University, Guiyang, China; College of Computer Science and Technology, Guizhou University, Guiyang, China; Department of Mathematics and Computer Science, Northeastern State University, Tahlequah, OK, USA | CHINA | Vehicular energy networks;energy trading;K-anonymity;location privacy;blockchain |
DESIGN AND FIELD IMPLEMENTATION OF BLOCKCHAIN BASED RENEWABLE ENERGY TRADING IN RESIDENTIAL COMMUNITIES.pdf | 2019 | Saxena S., Farag H., Brookson A., Turesson H., Kim H. | York University, Dept. of Electrical Engineering and Computer Science, Toronto, Canada; Sustainable Tech. Eval. Program Toronto and Region Conservation Authority, Toronto, Canada; Schulich School of Business and Management York University, Toronto, Canada | CANADA | blockchain; energy trading; hyperledger fabric; microgrid; renewable energy; smart contract; smart home; transactive energy |
DESIGN AND IMPLEMENTATION OF A BLOCKCHAIN-BASED ENERGY TRADING PLATFORM FOR ELECTRIC VEHICLES IN SMART CAMPUS PARKING LOTS.pdf | 2019 | Silva, FC; Ahmed, MA; Martinez, JM; Kim, YC | Universidad Tecnica Federico Santa Maria; Jeonbuk National University; Jeonbuk National University Chile Egypt Korea | CHILE EGYPT SOUTH KOREA | electric vehicles; smart parking lot; energy trading; blockchain; Hyperledger Fabric |
Design and implementation of an open-Source IoT and blockchain-based peer-to-peer energy trading platform using ESP32-S2, Node-Red and, MQTT protocol.pdf | 2021 | Baig, MJA; Iqbal, MT; Jamil, M; Khan, J | Memorial University Newfoundland canada | CANADA | Peer-to-Peer (P2P); Ethereum blockchain; Message Queuing Telemetry Transport (MQTT); Hypertext Transfer Protocol (http); Internet of things (IoT) |
DESIGN AND MANAGEMENT OF A DISTRIBUTED HYBRID ENERGY SYSTEM THROUGH SMART CONTRACT AND BLOCKCHAIN.pdf | 2019 | Li Y., Yang W., He P., Chen C., Wang X. | Department of Chemical and Biomolecular Engineering, National University of Singapore, Singapore, 117585, Singapore; School of Economics and Management, Tsinghua University, Beijing, 100084, China; Ziggurat Internet Technology, Zhongguancun SOHO 1010, Beijing, 100190, China | CHINA SINGAPORE | Blockchain; Decentralized identifier; Distributed energy system; Game theory; Receding horizon optimization; Smart contract |
Design challenges of developing a blockchain-enabled smart home.pdf | 2021 | ||||
DESIGN MODEL FOR ENERGY TRADING ON BLOCKCHAIN.pdf | 2019 | K. Kumari; M. Mrunalini; M. Kumar; V. Talasila; P. K. Dixit | Master of Computer Applications, M S Ramaiah Institute of Technology,Bangalore,India; Master of Computer Applications, M S Ramaiah Institute of Technology,Bangalore,India; Master of Computer Applications, M S Ramaiah Institute of Technology,Bangalore,India; Telecommunication Engineering, M S Ramaiah Institute of Technology,Bangalore,India; Electrical and Electronics Engineering, M S Ramaiah Institute of Technology,Bangalore,India | INDIA | Blockchain (BC);Distributed Energy Resources (DER);Energy Trading;Hyperledger Composer Rest Server |
DESIGN OF A MICROGRID LOCAL ENERGY MARKET ON A BLOCKCHAIN-BASED INFORMATION SYSTEM.pdf | 2019 | ||||
Design of a privacy-preserving decentralized energy trading scheme in blockchain network environment.pdf | 2020 | Wang, BB; Zhao, SN; Li, YC; Wu, C; Tan, J; Li, H; Yukita, K | Southeast University - China; State Grid Corporation of China | CHINA | Blockchain; Smart contract; Decentralized transactions; Alternating direction method of multipliers |
Design of a Secure Energy Trading Model Based on a Blockchain.pdf | 2020 | Ko, H; Praca, I | Polytechnic Institute of Porto Portugal | PORTUGAL | blockchain; peer-to-peer energy trade system; energy consumer; transaction |
DESIGN OF BLOCKCHAIN-BASED TRADING MECHANISM UNDER SHARING MODE OF ELECTRIC VEHICLE UNDER SMART GRID.pdf | 2020 | Xue, MF; Mao, XB; Pan, YT; Qin, QY; Li, B; Shi, K | North China Electric Power University | CHINA | P2P energy market; blockchain technology; electric vehicle; trading mechanism; smart grid |
Design of Collaborative Control Scheme between On-chain and Off-chain Power Data.pdf | 2021 | ||||
DESIGN OF ENERGY BLOCK CHAIN SYSTEM SUPPORTING ELECTRIC VEHICLE CHARGE AND DISCHARGE TRADING.pdf | 2019 | Zhou, GL; Lv, LJ; Li, G; Huang, YM; Zhen, H; Xiang, ZY | State Grid Corporation of China; North China Electric Power University | CHINA | energy internet; energy blockchain; electric vehicle; charging pile; ethereum |
Designing Blockchain-Based Access Control Protocol in IoT-Enabled Smart-Grid System.pdf | 2021 | Bera B., Saha S., Das A.K., Vasilakos A.V. | Center for Security Theory and Algorithmic Research, International Institute of Information Technology Hyderabad, Hyderabad, 500032, India; School of Electrical and Data Engineering, University Technology Sydney, Sydney, NSW 2007, Australia; Department of Computer Science and Technology, Fuzhou University, Fuzhou, 350116, China; Department of Computer Science Electrical and Space Engineering, Lulea University of Technology, Lulea, 97187, Sweden | AUSTRALIA CHINA INDIA SWEDEN | Access control; blockchain; Internet of Things (IoT); security; smart grid |
DESIGNING MICROGRID ENERGY MARKETS A CASE STUDY THE BROOKLYN MICROGRID.pdf | 2017 | Mengelkamp E., Gärttner J., Rock K., Kessler S., Orsini L., Weinhardt C. | Karlsruhe Institute of Technology (KIT), Institute for Information Systems and Marketing, Fritz-Erler-Str. 23, Karlsruhe, 76133, Germany; L03 Energy, 621 Degraw Street, 11215 Brooklyn, New York, NY, United States | GERMANY UNITED STATES | Blockchain; Case study; Market design; Microgrid energy market; Peer-to-peer trading; Renewable energy |
Designing-a-usercentric-P2P-energy-trading-platform-A-case-studyHigashiFuji-demonstrationEnergies.pdf | 2021 | ||||
Development of a Blockchain-Based Energy Trading Scheme for Prosumers.pdf | 2021 | Gough M., Santos S.F., Almeida A., Javadi M., Alskaif T., Castro R., Catalao J.P.S. | Inesc Tec, Feup, Porto, Portugal; Inesc Tec, Porto, Portugal; Feup, Porto, Portugal; Wageningen University Research, Netherlands; Inesc-Id and Ist, Lisbon, Portugal | NETHERLANDS PORTUGAL | Blockchain; Ethereum; Local Energy Markets; Market Facilitator; Microgrids; Smart Contracts; Solidity |
DEVELOPMENT OF RELIABLE WIRELESS COMMUNICATION SYSTEM FOR SECURE BLOCKCHAIN-BASED ENERGY TRADING.pdf | 2019 | Huang Z., Suankaewmanee K., Kang J., Niyato D., Sin N.P. | Energy Research Institute NTU, Nanyang Technological University, Singapore, Singapore; School of Computer Science and Engineering, Nanyang Technological University, Singapore, Singapore | SINGAPORE | |
Devising a trading mechanism with a joint price adjustment for local electricity markets using blockchain. Insights for policy makers.pdf | 2021 | Oprea S.-V., Bâra A. | Department of Economic Informatics and Cybernetics, The Bucharest University of Economic Studies, Piaţa Romană Square, Bucharest, 010374, Romania | OMAN ROMANIA | Auction; Blockchain; Community trading; Joint price adjustment; LEM; Price mechanism |
DIACS A Blockchain-based Model for Systematic Data Integrity Assessment and Control.pdf | 2021 | Sani, AS; Yuan, D; Mens, K; Dong, ZY | University of New South Wales Sydney; University of Sydney Australia | AUSTRALIA | smart grid; data integrity assessment and control; blockchain; fuzzy cognitive maps; authenticated encryption |
Digitalisation-and-sustainable-energy-transitions-in-Africa-assessing-the-impact-of-policy-and-regulatory-environments-on-the-energy-sector-in-Nigeria-and-South-AfricaEnergy-Sustainability-and-Society.pdf | 2021 | Nwaiwu, F | Liverpool John Moores University; University of Liverpool United Kingdom | UNITED KINGDOM | Blockchain; Smart grids; Digital technologies; Social and solidarity economy; Sub-Saharan Africa |
Digitalization and decentralization driving transactive energy Internet Key technologies and infrastructures.pdf | 2020 | ||||
DIGITALIZATION OF GLOBAL CITIES AND THE SMART GRID.pdf | 2020 | De Dutta S., Prasad R. | CTIF Global Capsule, Aarhus University, Herning, Denmark | DENMARK | Blockchain; Cybersecurity; Digitalization; Microgrid; Smart city; Smart grid |
Disruption Potential Assessment of the Power-to-Methane Technology.pdf | 2021 | ||||
Distributed ADMM Using Private Blockchain for Power Flow Optimization in Distribution Network With Coupled and Mixed-Integer Constraints.pdf | 2021 | C. Shah; J. King; R. W. Wies | Department of Electrical and Computer Engineering, The University of Alaska Fairbanks, Fairbanks, AK, USA; National Renewable Energy Laboratory, Golden, CO, USA; Department of Electrical and Computer Engineering, The University of Alaska Fairbanks, Fairbanks, AK, USA United States | UNITED STATES | Alternating direction method of multiplier;battery energy storage systems;blockchain;distributed optimization;optimal power flow;microgrid |
DISTRIBUTED DOUBLE AUCTION FOR PEER TO PEER ENERGY TRADE USING BLOCKCHAINS.pdf | 2018 | Thakur, S; Hayes, BP; Breslin, JG | University College Cork; National University of Ireland (NUI) Galway | IRELAND | Microgrid energy trade; Blockchain; Double auction |
Distributed electric energy trading model and strategy analysis based on prospect theory.pdf | 2021 | Yao, YT; Gao, CW; Chen, T; Yang, JL; Chen, SS | Southeast University - China | CHINA | Prosumer; Prospect theory; Distributed trading; Adaptive learning; Smart contract |
DISTRIBUTED ELECTRIC VEHICLE CONTROL MODEL BASED ON BLOCKCHAIN.pdf | 2019 | ||||
DISTRIBUTED ENERGY TRADING MODEL BASED ON GRAPHENE BLOCKCHAIN.pdf | 2020 | ||||
Distributed Energy Trading Network Decentralized and Secured.pdf | 2021 | Bhowmik, S; Sarkar, M; Bose, D; Chanda, CK | Indian Institute of Engineering Science Technology Shibpur (IIEST) | INDIA | Ethereum; ERC20 token; smart contract; smart grids; P2P; distributed generation |
DISTRIBUTED LEDGER TECHNOLOGIES FOR PEER-TO-PEER ENERGY TRADING.pdf | 2020 | Jogunola, O; Hammoudeh, M; Anoh, K; Adebisi, B | Manchester Metropolitan University; University of Bolton; University of Manchester United Kingdom | UNITED KINGDOM | Distributed ledger technology; blockchain; energy trading; hyperledger fabric; internet of things; IOTA; ethereum; prosumer |
DISTRIBUTED MULTI-FACTOR ELECTRICITY TRANSACTION MATCH MECHANISM BASED ON BLOCKCHAIN.pdf | 2020 | S. Ai; D. Hu; J. Guo; Y. Jiang; C. Rong; J. Cao | MingByte Technology (Qingdao) Co., Ltd,Energy Internet Lab,Qingdao,China; MingByte Technology (Qingdao) Co., Ltd,Energy Internet Lab,Qingdao,China; Tsinghua University,Research Institute of Information Technology,Beijing,China; MingByte Technology (Qingdao) Co., Ltd,Energy Internet Lab,Qingdao,China; University of Stavanger,Department of Electrical Engineering and Computer Science,Stavanger,Norway; Tsinghua University,Beijing National Research Center for Information Science and Technology,Beijing,China | CHINA NORWAY | blockchain;multi-factor;distributed electricity transaction match;regional energy internet |
DISTRIBUTED OPTIMIZATION OF POWER PROFILES ON A LOCAL ENERGY COMMUNITY USING BLOCKCHAIN.pdf | 2020 | M. Stephant; K. Hassam-Ouari; D. Abbes; A. Labrunie; B. Robyns | Univ. Lille,Centrale Lille, Institute of Technology Arts et Metiers,Lille,France,F-59000; HEI, Yncréa Hauts-de-France,Lille,France; Univ. Lille,Centrale Lille, Institute of Technology Arts et Metiers,Lille,France,F-59000; Greenbirdie,Paris,France; Univ. Lille,Centrale Lille, Institute of Technology Arts et Metiers,Lille,France,F-59000 | FRANCE | Energy community;blockchain;distributed optimization |
DISTRIBUTED PROPORTIONAL-FAIRNESS CONTROL IN MICROGRIDS VIA BLOCKCHAIN SMART CONTRACTS.pdf | 2017 | Danzi P., Angjelichinoski M., Stefanovic C., Popovski P. | Department of Electronic Systems, Aalborg University, Denmark | DENMARK | |
Distributed Resource Management for Blockchain in Fog-Enabled IoT Networks.pdf | 2021 | Yang L., Li M., Zhang H., Ji H., Xiao M., Li X. | Key Laboratory of Universal Wireless Communications, Ministry of Education, Beijing University of Posts and Telecommunications, Beijing, 100876, China; Department of Computer Science and Engineering, University of Texas at Arlington, Arlington, TX 76019, United States | CHINA UNITED STATES | Blockchain; fog computing; Internet of Things (IoT); matching |
Divergent applications of Blockchain Security A Survey.pdf | 2021 | Sharma V., Awasthi L.K. | Dr. B R Ambedkar National Institute of Technology, Dept. of Comp. Science and Engineering, Punjab, Jalandhar, 144011, India | INDIA | Authentication; Blockchain; Consensus Algorithm; Cryptocurrency; Data Integrity; DDOS; Digital Fingerprint; DLT; Hash; Verification |
DLT BLOCKCHAIN IN TRANSACTIVE ENERGY USE CASES SEGMENTATION AND STANDARDIZATION FRAMEWORK.pdf | 2019 | U. Cali; C. Lima; X. Li; Y. Ogushi | College of Engineging, University of North Carolina at Charlotte, Charlotte, USA; BEC-Blockchain Engineering Council, Texas, 77024, USA; GE Power, San Ramon, California, USA; Epooka Inc., Shibuya-ku, Tokyo, 151-0053 Japan | JAPAN | Blockchain Technology;Distributed Ledger Technology;Segmentation;Transactive Energy;Standardization |
Do FinTech trigger renewable energy use Evidence from OECD countries.pdf | 2021 | Croutzet, A; Dabbous, A | University of Quebec; Universite TELUQ Lebanon Canada | CANADA LEBANON | FinTech; Renewable energy; Panel data |
DOSing Distributed Ledger Technology IOTA.pdf | 2021 | ||||
DYNAMIC ADAPTIVE CROSS-CHAIN TRADING MODE FOR MULTI-MICROGRID JOINT OPERATION.pdf | 2020 | ||||
DYNAMIC PRICING IN INDUSTRIAL INTERNET OF THINGS- BLOCKCHAIN APPLICATION FOR ENERGY MANAGEMENT IN SMART CITIES.pdf | 2020 | Khattak H.A., Tehreem K., Almogren A., Ameer Z., Din I.U., Adnan M. | School of Electrical Engineering and Computer Science (SEECS), National University of Science and Technology (NUST), Islamabad, 45000, Pakistan; Department of Computer Science, COMSATS University Islamabad, Islamabad, 45000, Pakistan; Department of Computer Science, College of Computer and Information Sciences, King Saud University, Riyadh, 11633, Saudi Arabia; Department of Physics, Shaheed Benazir Bhutto Women University Peshawar, Peshawar, 25000, Pakistan; Department of Information Technology, The University of Haripur, Haripur, 22620, Pakistan; Division of Computer and Information Sciences, Higher Colleges of Technologies, Al Ain, 11633, United Arab Emirates | PAKISTAN SAUDI ARABIA UNITED ARAB EMIRATES | Hyperledger; Intelligent blockchain; Price Calculation; Smart Contracts; Smart Grid |
e PoS Making Proof of Stake.pdf | 2021 | ||||
Edge Blockchain Assisted Lightweight Privacy-Preserving Data Aggregation for Smart Grid.pdf | 2021 | Lu W., Ren Z., Xu J., Chen S. | Jiangsu Key Laboratory of Big Data Security and Intelligent Processing, Nanjing University of Posts and Telecommunications, Nanjing, China; College of IoT, Nanjing University of Posts and Telecommunications, Nanjing, China | CHINA | blockchain; data aggregation; Edge computing; smart grid |
Efficient Blockchain-Enabled Large Scale Parked Vehicular Computing With Green Energy Supply.pdf | 2021 | Y. Teng; Y. Cao; M. Liu; F. R. Yu; V. C. M. Leung | Beijing Key Laboratory of Space-ground Interconnection and Convergence, School of Electronic Engineering, Beijing University of Posts and Telecommunications, Beijing, China; Beijing Key Laboratory of Space-ground Interconnection and Convergence, School of Electronic Engineering, Beijing University of Posts and Telecommunications, Beijing, China; Beijing Key Laboratory of Space-ground Interconnection and Convergence, School of Electronic Engineering, Beijing University of Posts and Telecommunications, Beijing, China; Department of Systems and Computer Engineering, Carleton University, Ottawa, ON, Canada; Department of Electrical and Computer Engineering, University of British Columbia, Vancouver, BC, Canada | CANADA CHINA | Blockchain;parked vehicle (PV);deep deterministic policy gradient (DDPG);green energy harvesting;mixed-integer programing (MIP) |
Efficient Integration Model of MAS and Blockchain for emergence of Self-Organized Smart Grids.pdf | 2021 | I. Ostheimer; M. Hercog; B. Bijelić; D. Vranješ | Power Engineering Base58 Ltd.,Osijek,Croatia; Power Engineering Base58 Ltd.,Osijek,Croatia; Power Engineering Base58 Ltd.,Osijek,Croatia; Information Technology in Osijek,Faculty of Electrical Engineering, Computer Science,Department of Communications,Osijek,Croatia | CROATIA | Blockchain;Multi-Agent System;Smart Grid |
ELECTRIC POWER SYSTEM OPERATION MECHANISM WITH ENERGY ROUTERS BASED ON QOS INDEX UNDER BLOCKCHAIN ARCHITECTURE.pdf | 2020 | Gong, GJ; Zhang, ZN; Zhang, XY; Mahato, NK; Liu, L; Su, C; Yang, HX | North China Electric Power University | CHINA | high permeability renewable energy; blockchain technology; energy router; QoS index of energy flow; MOPSO algorithm; scheduling optimization |
Electrical-distance driven peer-to-peer energy trading in a low-voltage network.pdf | 2021 | Guerrero J., Sok B., Chapman A.C., Verbič G. | School of Electrical and Information Engineering, The University of Sydney, Sydney, Australia; School of Information Technology and Electrical Engineering, The University of Queensland, Brisbane, Australia | AUSTRALIA | Blockchain; Distributed energy resources; Local energy markets; Matching markets; Peer-to-peer energy trading; Smart-grid; Transactive energy |
Electricity Decentralized Transaction Framework of Community Energy Internet Cluster Based on Blockchain.pdf | 2021 | ||||
Electricity market transaction model design combining blockchain and machine learning.pdf | 2021 | Y. Liu; F. Zhou | Shanghai Institute of Technology,SIT,Shanghai,China; Shanghai Institute of Technology,SIT,Shanghai,China | CHINA | Blockchain;Energy Trading System;Ant Colony Algorithm;Machine learning;KNN |
ELECTRICITY TRADING MODEL BASED ON CHAINCODE AND MULTI-STAGE HYBRID AUCTION.pdf | 2020 | F. Yang; B. Zou; K. Zheng | State Grid Chongqing Electric Power Company, Marketing Service Center,Chongqing,China,401121; State Grid Chongqing Electric Power Company,Chongqing,China,401121; State Grid Chongqing Electric Power Company, Marketing Service Center,Chongqing,China,401121 | CHINA | Blockchain;Chaincode;Distributed Electricity Transaction;Hybrid Auction Mechanism |
ELECTRICITY TRADING PRICING AMONG PROSUMERS WITH GAME THEORY-BASED MODEL IN ENERGY BLOCKCHAIN ENVIRONMENT.pdf | 2020 | ||||
ELECTROBLOCKS A BLOCKCHAIN-BASED ENERGY TRADING SCHEME FOR SMART GRID SYSTEMS.pdf | 2020 | Tanwar S., Kaneriya S., Kumar N., Zeadally S. | Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad, India; Department of Computer Science Engineering, Thapar Institute of Engineering and Technology, Deemed to be University, Patiala, India; Department of Computer Science and Information Engineering, Asia University, Taichung, Taiwan; Department of Computer Science, King Abdul Aziz University, Jeddah, Saudi Arabia; College of Communication and Information, University of Kentucky, Lexington, KY, United States | INDIA SAUDI ARABIA TAIWAN UNITED STATES | blockchain; network management; performance evaluation; smart grid |
ENABLING LOCALIZED PEER-TO-PEER ELECTRICITY TRADING AMONG PLUG-IN HYBRID ELECTRIC VEHICLES USING CONSORTIUM BLOCKCHAINS.pdf | 2017 | Kang, JW; Yu, R; Huang, XM; Maharjan, S; Zhang, Y; Hossain, E | Guangdong University of Technology; University of Oslo; University of Oslo; University of Manitoba China | CHINA | Consortium blockchain; decentralized energy trading; double auction; plug-in hybrid electric vehicle (PHEVs); security and privacy |
Enabling low-voltage, peer-to-peer, quasi-real-time electricity markets through consortium blockchains.pdf | 2021 | Bischi A., Basile M., Poli D., Vallati C., Miliani F., Caposciutti G., Marracci M., Dini G., Desideri U. | Department of Energy, Systems, Territory and Construction Engineering – DESTeC, Università di Pisa, Largo Lucio Lazzarino 1, Pisa, Italy; Department of Information Engineering – DII, Università di Pisa, Largo Lucio Lazzarino 1, Pisa, Italy | ITALY | Energy market design; Ethereum consortium blockchain; Peer-to-peer; Proof-of-concept; Quasi-real-time; Variable renewable energy sources |
ENABLING TECHNOLOGIES FOR MULTINATIONAL INTERCONNECTED SMART GRID.pdf | 2019 | Cioara, T; Anghel, I; Pop, C; Bertoncini, M; Croce, V; Ioannidis, D; Votis, K; Tzovaras, D; D'Oriano, L | Technical University of Cluj Napoca Italy Greece | GREECE ITALY | Demand Response; Blockchain; Energy; Smart Contracts |
ENERGY AND PERFORMANCE AWARE FOG COMPUTING A CASE OF DVFS AND GREEN RENEWABLE ENERGY.pdf | 2019 | Toor A., Islam S.U., Sohail N., Akhunzada A., Boudjadar J., Khattak H.A., Din I.U., Rodrigues J.J.P.C. | Department of Computer Science, COMSATS University Islamabad, Islamabad, Pakistan; Department of Computer Science, Dr. A. Q. Khan Institute of Computer Science and Information Technology, Rawalpindi, Pakistan; ECE, Department of Engineering, Aarhus University, Denmark; Department of Information Technology, The University of Haripur, Haripur, 22620, Pakistan; National Institute of Telecommunications (Inatel), Santa Rita do Sapucaí, MG, Brazil; Instituto de Telecomunicações, Portugal; Federal University of Piauí (UFPI), Teresina, PI, Brazil; Namibia University of Science & Technology (NUST), Windhoek, Namibia | BRAZIL DENMARK NAMIBIA PAKISTAN PORTUGAL | Blockchain; DVFS; Fog computing; Green energy; Power consumption; QoS; Renewable energy |
Energy and Resource Consumption in Cryptocurrency Mining A Detailed Comparison.pdf | 2021 | L. Gundaboina; S. Badotra; S. Tanwar | Lovely Professional University,Department of Computer Science and Engineering,Phagwara,Punjab,India; Lovely Professional University,Department of Computer Science and Engineering,Phagwara,Punjab,India; Amity University,AIIT,Noida,Uttar Pradesh,India | INDIA | Cryptocurrency;Dogecoin;Mining;Electricity consumption |
Energy Blockchain for Demand Response and Distributed Energy Resource Management.pdf | 2021 | M. Samadi; H. Schriemer; S. Ruj; M. Erol-Kantarci | School of Electrical and Computer Engineering, University of Ottawa,Ottawa,Canada; School of Electrical and Computer Engineering, University of Ottawa,Ottawa,Canada; Data61, CSIRO and UNSW,Sydney,Australia; School of Electrical and Computer Engineering, University of Ottawa,Ottawa,Canada | AUSTRALIA CANADA | |
ENERGY CONSUMPTION OF CRYPTOCURRENCY MINING A STUDY OF ELECTRICITY CONSUMPTION IN MINING CRYPTOCURRENCIES.pdf | 2018 | Li J., Li N., Peng J., Cui H., Wu Z. | College of Civil Engineering, Hunan University, Changsha, 410081, China | CHINA | Carbon emission; Cryptocurrency mining; Energy consumption; Monero; PoW |
ENERGY CROWDSOURCING AND PEER-TO-PEER ENERGY TRADING IN BLOCKCHAIN-ENABLED SMART GRIDS.pdf | 2019 | Wang S., Taha A.F., Wang J., Kvaternik K., Hahn A. | Department of Electrical and Computer Engineering, University of Texas at San Antonio, San Antonio, TX 78256, United States; Department of Electrical Engineering, Southern Methodist University, Dallas, TX 75275, United States; Cyberphysical Systems Research, Siemens Corporate Technology, Princeton, NJ 08540, United States; School of Electrical Engineering and Computer Science, Washington State University, Pullman, WA 99164, United States | UNITED STATES | Blockchain; energy crowdsourcing; energy trading; peer-to-peer (P2P) energy management |
ENERGY INTERNET, THE FUTURE ELECTRICITY SYSTEM- OVERVIEW, CONCEPT, MODEL STRUCTURE, AND MECHANISM.pdf | 2020 | Joseph, A; Balachandra, P | Nanyang Technological University & National Institute of Education (NIE) Singapore; Nanyang Technological University; Indian Institute of Science (IISC) - Bangalore | INDIA SINGAPORE | smart grid; energy internet; energy intranet; energy transition; energy blockchain; peer-to-peer energy trading |
ENERGY MILEAGE CONCEPT FOR LOCAL RE USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | Shingo, M; Tanaka, K | University of Tokyo Japan | JAPAN | Energy Mileage; renewable energy; Blockchain; Electricity; Localization of Energy |
ENERGY PROSUMER BUSINESS MODEL USING BLOCKCHAIN SYSTEM TO ENSURE TRANSPARENCY AND SAFETY.pdf | 2017 | Hwang, J; Choi, MI; Lee, T; Jeon, S; Kim, S; Park, S; Park, S | Chung Ang University Korea | SOUTH KOREA | Bigdata; IoT(Internet of Things); energy prosumer; blockchain technology; business models |
ENERGY TRADING BASED ON SMART CONTRACT BLOCKCHAIN APPLICATION.pdf | 2020 | Abdelwahed M., Boghdady T.A., Madian A., Shalaby R. | Nile University, Festo Certified and Authorized Training Center (FACT), Giza, Egypt; Cairo University, Faculty of Engineering, Electrical Power Engineering Dept., Giza, Egypt; Nile University, Nanoelectronics Integrated Systems Center (NISC), Giza, Egypt; Menofia University, Faculty of Engineering, Industrial Electronics and Control Dept., Menofia, Egypt | EGYPT | Blockchain; Consensus; Consumer; Energy Sharing; Prosumer; Smart Contract; Smart Grid |
ENERGY TRADING IN MICROGRIDS USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | P. K. Karthik; R. Anand | Bangalore Amrita Vishwa Vidyapeetham, Department of EEE, India; Bangalore Amrita Vishwa Vidyapeetham, Department of EEE, India | INDIA | Blockchain;Microgrids;Energy trading |
ENERGY TRADING OF ELECTRIC VEHICLES USING BLOCKCHAIN AND SMART CONTRACTS.pdf | 2019 | Asfia, U; Kamuni, V; Sheikh, A; Wagh, S; Patel, D | Veermata Jijabai Technological Institute (VJTI); Veermata Jijabai Technological Institute (VJTI) india | INDIA | Blockchain; Electric vehicles; Smart contracts |
ENERGY TRANSACTION FOR MULTI-MICROGRIDS AND INTERNAL MICROGRID BASED ON BLOCKCHAIN.pdf | 2020 | Z. Zhao; J. Guo; X. Luo; J. Xue; C. S. Lai; Z. Xu; L. L. Lai | School of Automation, Guangdong University of Technology, Guangzhou, China; School of Automation, Guangdong University of Technology, Guangzhou, China; School of Automation, Guangdong University of Technology, Guangzhou, China; Zhanjiang Power Supply Bureau, Guangdong Power Grid Corporation, Zhanjiang, China; School of Automation, Guangdong University of Technology, Guangzhou, China; China Resources Power Holdings Company Ltd., Shenzhen, China; School of Automation, Guangdong University of Technology, Guangzhou, China | CHINA | Renewable energy generation;multi-microgrids;blockchain;decentralized;energy transaction |
ENERGYTRADINGRANK ALGORITHM FOR TRUTHFUL AUCTIONS AMONG EVS VIA BLOCKCHAIN ANALYTICS OF LARGE SCALE TRANSACTION GRAPHS.pdf | 2019 | Choubey A., Behera S., Patel Y.S., Mahidhar K., Misra R. | Dept of Computer Science Engg, Indian Institute of Technology, Patna, India | INDIA | Blockchain; Electric Vehicle; EnergyTradeRank; ETcoin; GraphX; Hyperledger |
ENHANCED PROOF-OF-BENEFIT A SECURE BLOCKCHAIN-ENABLED EV CHARGING SYSTEM.pdf | 2019 | ||||
ETHEREUM BLOCKCHAIN-BASED PEER-TO-PEER ENERGY TRADING PLATFORM.pdf | 2020 | A. Iskakova; H. S. V. S. Kumar Nunna; P. Siano | Nazarbayev University,Department of Electrical and Computer Engineering,Nur-Sultan,Kazakhstan; Nazarbayev University,Department of Electrical and Computer Engineering,Nur-Sultan,Kazakhstan; University of Salerno,Department of Management and Innovation Systems,Salerno,Italy | ITALY KAZAKHSTAN | Transactive Energy Management Systems;Blockchain;Ethereum;Decentralized Application;Smart Contract;Multi-Agent Systems;JADE |
ETHOME OPEN-SOURCE BLOCKCHAIN BASED ENERGY COMMUNITY CONTROLLER.pdf | 2018 | Schlund, J; Ammon, L; German, R | University of Erlangen Nuremberg Germany | GERMANY | blockchain; open-source; energy community; battery efficiency |
EV MOBILITY CHARGING SERVICE BASED ON BLOCKCHAIN.pdf | 2020 | ||||
Evaluating a Blockchain-based Method for Industrial IoT Data Confidentiality Proof of Concept.pdf | 2021 | Ashena E. | Technical and Vocational University (TVU), Faculty of Girls, Department of Electrical and Computer Engineering, Maragheh, Iran | IRAN | Blockchain; Confidentiality; Data; Hash; Industrial IoT(IIoT); IoT; Security |
Examining the Applicability of Blockchain to the Smart Grid Using Proof-of-Authority Consensus.pdf | 2021 | U. Chikezie; T. Karacolak; J. C. Do Prado | Washington State University,School of Engr. and Computer Science,Vancouver,United States; Washington State University,School of Engr. and Computer Science,Vancouver,United States; Washington State University,School of Engr. and Computer Science,Vancouver,United States | UNITED STATES | Proof-of-authority (PoA);vehicle-to-grid (V2G);prosumer;smart contract;advanced metering infrastructure (AMI);renewable energy certificate (REC) |
EXPERIMENTAL BANDWIDTH BENCHMARKING FOR P2P MARKETS IN BLOCKCHAIN MANAGED MICROGRIDS.pdf | 2018 | Meeuw, A; Schopfer, S; Wortmann, F | University of St Gallen; ETH Zurich Switzerland | SWITZERLAND | Blockchain managed microdgrid; communication network requirements |
Exploring Blockchain enabled Smart Community with Electric Vehicles.pdf | 2021 | A. N. K; C. Kapoor; N. M. A; S. Shibu N B; B. S | Amrita Vishwa Vidyapeetham,Department of Computer Science and Engineering (CSE),Amritapuri,India; Amrita Vishwa Vidyapeetham,Department of Computer Science and Engineering (CSE),Amritapuri,India; Amrita Vishwa Vidyapeetham,Department of Computer Science and Engineering (CSE),Amritapuri,India; Amrita Vishwa Vidyapeetham,Center for Wireless Networks and Applications (WNA),Coimbatore,India; Department of Electrical and Electronics Engineering (EEE) | INDIA | Blockchain;Smart Contracts;Energy pool;Ethereum;Bidirectional EV Charging |
Exploring Blockchain for The Coordination of Distributed Energy Resources.pdf | 2021 | Yang Q., Wang H. | College of Electronics and Information Engineering and Blockchain Technology Research Center, Shenzhen University, Shenzhen, China; Faculty of Information Technology, Monash University, Department of Data Science and Artificial Intelligence, Melbourne, VIC 3800, Australia | AUSTRALIA CHINA | Blockchain; Distributed energy resource (DER); Distributed optimization; Energy management; Smart grid |
EXPLORING BLOCKCHAIN FOR THE ENERGY TRANSITIO OPPORTUNITIES AND CHALLENGES BASED ON A CASE STUDY IN JAPAN.pdf | 2019 | Ahl, A; Yarime, M; Goto, M; Chopra, SS; Kumar, NM; Tanaka, K; Sagawa, D | Tokyo Institute of Technology; Hong Kong University of Science & Technology; City University of Hong Kong; University of Tokyo; University of London; University College London; University of Tokyo | HONG KONG | Blockchain; Energy transition; Energy internet; Smart grid; Energy-trading; Renewable energy; Prosumers; Innovation ecosystem |
Feasibility-conditions-for-demonstrative-peertopeer-energy-marketEnergies.pdf | 2021 | ||||
Fed-DDM A Federated Ledgers based Framework for Hierarchical Decentralized Data Marketplaces.pdf | 2021 | ||||
File Tracking and Security System Using BLE and Blockchain.pdf | 2021 | ||||
FLEXIBILITY SERVICES BASED ON OPENADR PROTOCOL FOR DSO LEVEL.pdf | 2020 | ||||
FOG COMPUTING ENABLED SMART GRID BLOCKCHAIN ARCHITECTURE AND PERFORMANCE OPTIMIZATION WITH DRL APPROACH.pdf | 2020 | W. Zheng; W. Wang; G. Wu; C. Xue; Y. Wei | Jiaxing Power Supply Company,Jiaxing,China; Jiaxing Power Supply Company,Jiaxing,China; Jiaxing Power Supply Company,Jiaxing,China; School of Electronic Engineering, Beijing University of Posts and Telecommunications,Beijing,China; School of Electronic Engineering, Beijing University of Posts and Telecommunications,Beijing,China | CHINA | Smart grid;Blockchain;Consensus mechanism;Fog computing;Deep reinforcement learning |
FORECASTING IN BLOCKCHAIN-BASED LOCAL ENERGY MARKETS.pdf | 2019 | Kostmann, M; Hardle, WK | Humboldt University of Berlin; Humboldt University of Berlin; Xiamen University; Charles University Prague Germany China czech republic | CHINA CZECH REPUBLIC GERMANY | blockchain; local energy market; smart contract; smart meter; short-term energy forecasting; machine learning; least absolute shrinkage and selection operator (LASSO); long short-term memory (LSTM); prediction errors; market mechanism; market simulation |
FOSTERING CONSUMERS' ENERGY MARKET THROUGH SMART CONTRACTS.pdf | 2017 | Kounelis, I; Steri, G; Giuliani, R; Geneiatakis, D; Neisse, R; Nai-Fovino, I | European Commission Joint Research Centre; EC JRC ISPRA Site Italy | ITALY | |
Fostering Energy Transition in Smart Cities DLTs for Peer-to-Peer Electricity Trading.pdf | 2021 | ||||
GarliChain A privacy preserving system for smart grid consumers using blockchain.pdf | 2021 | ||||
GREEN HOPE OR RED HERRING EXAMINING CONSUMER PERCEPTIONS OF PEER-TO-PEER ENERGY TRADING IN THE UNITED KINGDOM.pdf | 2020 | Pumphrey, K; Walker, SL; Andoni, M; Robu, V | Newcastle University - UK; Heriot Watt University United Kingdom | UNITED KINGDOM | Blockchain; Peer-to-peer energy trading; Decentralised energy system; Prosumer; Electricity trading; Social practice theory |
Greening inventories Blockchain to improve the GHG Protocol Program in scope 2.pdf | 2021 | Diniz, EH; Yamaguchi, A; dos Santos, TR; de Carvalho, P; Alego, AS; Carvalho, M | Escola de Pos-Graduacao em Economia (EPGE); Getulio Vargas Foundation Brazil | BRAZIL | GHG Protocol; Blockchain; Design science research; Renewable energy; Technology innovation; Sustainable supply chain management |
GRID CAPACITY MANAGEMENT FOR PEER-TO-PEER LOCAL ENERGY COMMUNITIES.pdf | 2020 | Rao B.V., Stefan M., Schwalbe R., Zeilinger F., Schenk A., Frischenschlager A., Stetn P., Taljan G. | Austrian Institute of Technology, Electric Energy Systems, Center for Energy, Vienna, Austria; Siemens Aktiengesellschaft Oesterreich, Vienna, Austria; Energienetze Steiermark, Graz, Austria | AUSTRIA | Distribution grids and smart grids; Grid capacity; Optimal scheduling |
Grid management system through functionalitites and potentialities of an Energy Blockchain.pdf | 2021 | V. De Magalhães; Deboni; C. Frederico; M. Almeida; L. H. L. Rosa; N. Kagan; M. Mingatos; F. Gemignani; M. R. Cruz | POLI-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil; Enerq-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil; Enerq-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil; POLI-USP,São Paulo,Brazil | BRAZIL | Blockchain;energy grid;JavaScript;Solidity;smart contracts |
GUARDIAN BLOCKCHAIN-BASED SECURE DEMAND RESPONSE MANAGEMENT IN SMART GRID SYSTEM.pdf | 2019 | Jindal A., Aujla G.S., Kumar N., Villari M. | School of Computing and Communications, Lancaster University, Lancaster, LA1 4WA, United Kingdom; School of Computing, Newcastle University, Newcastle Upon Tyne, NE4 5TG, United Kingdom; Computer Science and Engineering Department, Thapar Institute of Engineering and Technology, Patiala, Punjab, 147001, India; Faculty of Engineering, University of Messina, Messina, 98122, Italy; Computer Science and Engineering Department, Chandigarh University, Punjab, 140413, India; King Abdulaziz University, Jeddah, 21589, Saudi Arabia; Asia University, Taichung City, 41354, Taiwan | INDIA ITALY SAUDI ARABIA TAIWAN UNITED KINGDOM | Blockchain; data analytics; demand response management; energy trading; security; smart grid system |
HOW CAN BLOCKCHAIN TECHNOLOGY ACCELERATE ENERGY EFFICIENCY INTERVENTIONS_ A USE CASE COMPARISON.pdf | 2020 | Schletz, M; Cardoso, A; Dias, GP; Salomo, S | Technical University of Denmark; Technical University of Berlin; Technical University of Denmark | DENMARK | energy efficiency; blockchain; market barriers; energy efficiency obligations; white certificate scheme (WCS); energy service companies (ESCOs); peer-to-peer (P2P); energy trading; decision framework |
How Smart is the Grid.pdf | 2021 | ||||
HYBRID APPROACHES FOR SMART CONTRACTS IN LAND ADMINISTRATION LESSONS FROM THREE BLOCKCHAIN PROOFS-OF-CONCEPT.pdf | 2021 | Bennett, R; Miller, T; Pickering, M; Kara, A | Swinburne University of Technology australia netherlands | AUSTRALIA NETHERLANDS | blockchain; smart contracts; land administration; land registration; cadastre; technology readiness levels; land conveyance; mortgage discharge |
IDENX A BLOCKCHAIN-BASED IDENTITY MANAGEMENT SYSTEM FOR SUPPLY CHAIN ATTACKS MITIGATION IN SMART GRIDS.pdf | 2020 | Sani, AS; Yuan, D; Meng, K; Dong, ZY | University of New South Wales Sydney; University of Sydney Australia | AUSTRALIA | blockchain; smart contracts; identity management; supply chain attacks; smart grids |
IEEE SA BLOCKCHAIN IN ENERGY STANDARDIZATION FRAMEWORK- GRID AND PROSUMER USE CASES.pdf | 2020 | Sang Y., Cali U., Kuzlu M., Pipattanasomporn M., Lima C., Chen S. | The University of Texas at El Paso, El Paso, TX, United States; The University of North Carolina at Charlotte, Charlotte, NC, United States; Old Dominion University, Norfolk, VA, United States; Virginia Tech, Blacksburg, VA, United States; Blockchain Engineering Council, Houston, TX, United States; Shanghai Jiao Tong University, Shanghai, China | CHINA UNITED STATES | Blockchain in energy; Distributed ledger technology; Energy trading; Standard development; Use case segmentation |
IMPACT OF BLOCKCHAIN TECHNOLOGY FOR MODIFICATION OF THE SUPPLY CHAIN MANAGEMENT IN ENERGY MARKETS.pdf | 2020 | ||||
IMPACT OF P2P TRADING ON DISTRIBUTED GENERATION CURTAILMENT IN CONSTRAINED DISTRIBUTION NETWORKS.pdf | 2020 | Jenkins, M; Kockar, I | University of Strathclyde united kingdom | UNITED KINGDOM | Peer-to-Peer trading; Bilateral contracts; Curtailment; Distributed energy resources; Optimal power flow |
IMPLEMENTATION OF BLOCKCHAIN TECHNOLOGY FOR ENERGY TRADING WITH SMART METERS.pdf | 2019 | S. M. S. Hussain; S. M. Farooq; T. S. Ustun | AIST (FREA),Fukushima Renewable Energy Institute,Koriyama,Japan; Yogi Vemna UniversityKadapa, India,Department of Computer Science and Engineering,Kadapa,India; AIST (FREA),Fukushima Renewable Energy Institute,Koriyama,Japan | INDIA JAPAN | Consensus ledger;Distributed Power Optimization;Smart Grid Communications;Energy transactions;Peer-to-peer Energy Trading |
IMPLEMENTING A BLOCKCHAIN FROM SCRATCH WHY, HOW, AND WHAT WE LEARNED.pdf | 2019 | ||||
IMPLEMENTING A BLOCKCHAIN-BASED LOCAL ENERGY MARKET INSIGHTS ON COMMUNICATION AND SCALABILITY.pdf | 2020 | Meeuw A., Schopfer S., Wörner A., Tiefenbeck V., Ableitner L., Fleisch E., Wortmann F. | Universität St. Gallen, Switzerland; ETH Zürich, Switzerland; FAU Nürnberg, Germany | GERMANY SWITZERLAND | Blockchain managed microgrid; Local energy markets; Network requirements; Peer-to-peer trading; Smart grid communication |
IMPLEMENTING BLOCKCHAIN TECHNOLOGY IN IRRIGATION SYSTEMS THAT INTEGRATE PHOTOVOLTAIC ENERGY GENERATION SYSTEMS.pdf | 2020 | Enescu, FM; Bizon, N; Onu, A; Raboaca, MS; Thounthong, P; Mazare, AG; Serban, G | University of Pitesti; National Institute of Research & Development for Cryogenic & Isotopic Technologies; Polytechnic University of Bucharest; King Mongkuts University of Technology North Bangkok Romania Thailand | OMAN ROMANIA THAILAND | irrigation system; photovoltaic water pumping systems (PWPS); floating photovoltaic panels; SCADA; blockchain; SolarCoin |
IMPLEMENTING DEMAND RESPONSE USING SMART HOME IOT DEVICES.pdf | 2020 | D. Daniel-George; C. Mihaela; M. Bogdan; T. Radu | SmartGrider Electric SRL,Cluj-Napoca,Romania; EnergoBit SA,Cluj-Napoca,Romania; SmartGrider Electric SRL,Cluj-Napoca,Romania; EnergoBit SA,Cluj-Napoca,Romania | OMAN ROMANIA | Smart Grids;Demand Side Flexibility;Demand Response;balancing services;ancillary services;Internet of Things |
INCENTIVIZING RESOURCE COOPERATION FOR BLOCKCHAIN EMPOWERED WIRELESS POWER TRANSFER IN UAV NETWORKS.pdf | 2020 | ||||
Increasing privacy and security by integrating a Blockchain Secure Interface into an IoT Device Security Gateway ArchitectureOpen Access.pdf | 2021 | Sarac, M; Pavlovic, N; Bacanin, N; Al-Turjman, F; Adamovic, S | Near East University Turkey Serbia | SERBIA TURKEY | Security; Internet of Things; Blockchain; Security gateway; Privacy |
INDIVIDUAL GREEN CERTIFICATES ON BLOCKCHAIN A SIMULATION APPROACH.pdf | 2020 | Zhao, FY; Guo, X; Chan, WC | Tsinghua University; University of California System; University of California Berkeley united states china | CHINA UNITED STATES | blockchain simulation; incentive mechanism; consensus protocol; distributed energy; green certificates |
INDUSTRY 4.0 AND ITS IMPLICATIONS FOR THE FINANCIAL SECTOR.pdf | 2020 | Machkour B., Abriane A. | The Faculty of Law and Economic Sciences, Ibn Zohr University, Agadir, Morocco | MOROCCO | Blockchain; Digital banking; Financial sector; FinTech; Industry 4.0 |
INTEGRATED ENERGY TRANSACTION MECHANISMS BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2018 | Zhao, SN; Wang, BB; Li, YC; Li, Y | Southeast University - China | CHINA | blockchain; decentralized market; integrated energy transaction; transaction scheme design |
Integration of Blockchain and Machine Learning for Microgrids.pdf | 2021 | Z. Li; J. Xu; Y. Xie; J. Jiang; Y. Zhu; X. Yang | Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China; Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China; Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China; Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China; Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China; Digital Grid Research Institute, China Southern Power Grid,Guangzhou,P.R. China | CHINA | Microgrid;Blockchain;Machine learning |
INTEGRATION OF BLOCKCHAIN WITH IEC 61850 FOR INTERNAL MANAGEMENT OF MICROGRIDS.pdf | 2020 | Gayo, M; Rodriguez, EJ; Santos, C; Martin, P; Jimenez, JA | Universidad de Alcala spain | SPAIN | Prosumer; Distributed Generation; Blockchain; IEC 61850; Smart Contract; Chaincode; Transactive Energy; Local Market |
Integration_of_Distributed_Ledger_Technology_and_Modern_Smart_Grids_An_Outlook.pdf | 2021 | ||||
INTELLIGENT MICRO ENERGY GRID IN 5G ERA PLATFORMS, BUSINESS CASES, TESTBEDS, AND NEXT GENERATION APPLICATIONS.pdf | 2019 | Kim Y.-M., Jung D., Chang Y., Choi D.-H. | Energy Platform Business Unit, Korea Telecom, Seoul, 03155, South Korea; School of Electrical and Electronics Engineering, Chung-Ang University, Seoul, 156-756, South Korea | SOUTH KOREA | 5G; Artificial intelligence; Big data; Blockchain; Digital twin; Energy management system; Internet of Things; Microgrid |
Interconnected hybrid AC-DC microgrids security enhancement using blockchain technology considering uncertainty.pdf | 2021 | Li, QH; Li, AH; Wang, T; Cai, YP | china | CHINA | Copula model; Blockchain technology; Hybrid AC-DC microgrid; Evolutionary algorithm |
INTERLEDGER FOR THE INDUSTRIAL INTERNET OF THINGS.pdf | 2019 | Nikander P., Autiosalo J., Paavolainen S. | Aalto University, School of Electrical Engineering, Finland; Aalto University, School of Engineering, Finland | FINLAND | Blockchain; Distributed Ledger Technology; Industrial Internet; Internet-of-Things Devices |
Internet of energy new scenarios- opportunities- challenges and educational solutions.pdf | 2021 | D. Assante; C. Capasso; O. Veneri; M. Castro; S. Martin; H. D. Mohammadian | International Telematic University Uninettuno,Faculty of Engineering,Rome,Italy; National Research Council of Italy, Via G. Marconi 4,Istituto Motori,Naples,Italy; National Research Council of Italy, Via G. Marconi 4,Istituto Motori,Naples,Italy; Universidad Nacional de Educación a Distancia,Electrical and Computer Engineering Department,Madrid,Spain; Universidad Nacional de Educación a Distancia,Electrical and Computer Engineering Department,Madrid,Spain; Fachhochschule des Mittelstands,Bielefeld,Germany | GERMANY ITALY SPAIN | Internet of Energy;Remote Laboratories;Virtual Laboratories;Engineering Education;Open Educational Resources |
INTERNET OF THINGS (IOT) AND THE ENERGY SECTOR.pdf | 2020 | Motlagh, NH; Mohammadrezaei, M; Hunt, J; Zakeri, B | University of Helsinki; University of Ottawa; International Institute for Applied Systems Analysis (IIASA); Aalborg University Denmark Austria Canada | AUSTRIA CANADA DENMARK | internet of things; IoT applications; energy efficiency; energy in buildings; smart energy systems; smart grid; flexible demand; energy storage |
INTERNET OF THINGS (IOT)-ENABLED SOLAR MICRO INVERTER USING BLOCKCHAIN TECHNOLOGY.pdf | 2019 | Hadi, AA; Sinha, U; Faika, T; Kim, T; Zeng, JW; Ryu, MH | Texas A&M University System; Texas A&M University Kingsville; Minnesota State University Mankato; Korea Electrotechnology Research Institute (KERI) | SOUTH KOREA | blockchain; internet of things; IoT; smart contract; solar micro inverter |
Investigating Smart City Development Based on Green Buildings, Electrical Vehicles and Feasible Indicators.pdf | 2021 | ||||
INVESTIGATING THE SUITABILITY OF BLOCKCHAIN FOR SMART GRID.pdf | 2019 | Fujdiak, R; Mlynek, P; Slacik, J; Misurec, J; Voznak, M; Orgon, M | Brno University of Technology; Technical University of Ostrava; Slovak University of Technology Bratislava Czech Republic Slovakia | CZECH REPUBLIC SLOVAKIA | blockchain; smart grid; cybersecurity; electricity trading; smart metering; sustainable energy |
IOT AND BLOCKCHAIN BASED PEER TO PEER ENERGY TRADING PILOT PLATFORM.pdf | 2020 | M. J. A. Baig; M. T. Iqbal; M. Jamil; J. Khan | Memorial University of Newfoundland,Department of Electrical and Computer Engineering,St. John's,NL,Canada; Memorial University of Newfoundland,Department of Electrical and Computer Engineering,St. John's,NL,Canada; Memorial University of Newfoundland,Department of Electrical and Computer Engineering,St. John's,NL,Canada; BC Hydro Transmission Lines Engineering,Burnaby,BC,Canada | CANADA | Internet of Things (IoT);Ethereum;Blockchain;Smart contract;Energy Trading;Peer-to-peer (P2P) |
IoT-Enabled Smart Energy Grid Applications and Challenges.pdf | 2021 | S. M. A. A. Abir; A. Anwar; J. Choi; A. S. M. Kayes | IGW Operators Forum, Dhaka, Bangladesh; Centre for Cyber Security Research and Innovation (CSRI), School of Information Technology, Deakin University, Geelong, VIC, Australia; School of Information Technology, Deakin University, Geelong, VIC, Australia; Department of Computer Science and Information Technology, La Trobe University, Melbourne, VIC, Australia | AUSTRALIA BANGLADESH | Cybersecurity;IoT;smart grid;smart meter |
IS BLOCKCHAIN A SUITABLE TECHNOLOGY FOR ENSURING THE INTEGRITY OF DATA SHARED BY LIGHTING AND OTHER BUILDING SYSTEMS.pdf | 2019 | A. Vlachokostas; M. Poplawski; S. N. Gupta Gourisetti | Pacific Northwest National Laboratory,Richland,USA; Pacific Northwest National Laboratory,Richland,USA; Pacific Northwest National Laboratory,Richland,USA United States | UNITED STATES | data integrity;data exchange;connected lighting systems;blockchain;distributed ledger technology |
JOINT OPERATION MECHANISM OF DISTRIBUTED PHOTOVOLTAIC POWER GENERATION MARKET AND CARBON MARKET BASED ON CROSS-CHAIN TRADING TECHNOLOGY.pdf | 2020 | ||||
JOINT OPTIMIZATION OF RADIO AND COMPUTATIONAL RESOURCES ALLOCATION IN BLOCKCHAIN-ENABLED MOBILE EDGE COMPUTING SYSTEMS.pdf | 2020 | J. Feng; F. R. Yu; Q. Pei; J. Du; L. Zhu | State Key Laboratory of Integrated Services Networks, School of Telecommunication Engineering, Xidian University, Xi’an, China; Department of Systems and Computer Engineering, Carleton University, Ottawa, ON, Canada; State Key Laboratory of Integrated Services Networks, School of Telecommunication Engineering, Xidian University, Xi’an, China; Shaanxi Key Laboratory of Information Communications, Xi’an University of Posts and Telecommunications, Xi’an, China; State Key Laboratory of Rail Traffic Control, Beijing Jiaotong University, Bejing, China | CANADA CHINA | Mobile edge computing;blockchain;energy consumption;delay/time to finality |
JOULIN BLOCKCHAIN-BASED P2P ENERGY TRADING USING SMART CONTRACTS.pdf | 2020 | ||||
LABCHAIN AN INTERACTIVE PROTOTYPE FOR SYNTHETIC PEER-TO-PEER TRADE RESEARCH IN EXPERIMENTAL ENERGY ECONOMICS.pdf | 2020 | ||||
Latency Estimation of Blockchain-Based Distributed Access Control for Cyber Infrastructure in the IoT Environment.pdf | 2021 | Halgamuge, MN | University of Melbourne australia | AUSTRALIA | Blockchain; distributed ledger technology; latency; cyber infrastructure; Certificate Authorities (CAs); IoT |
Legality On Digital Document Using Blockchain Technology An Exhaustive Study.pdf | 2021 | ||||
Lightweight blockchain framework for location-aware peer-to-peer energy trading.pdf | 2021 | Khorasany, M; Dorri, A; Razzaghi, R; Jurdak, R | Monash University; Queensland University of Technology (QUT) Australia | AUSTRALIA | Blockchain; Distributed energy resources (DER); Internet of Things (IoT); Peer-to-peer (P2P) trading; Smart grid; Transactive energy (TE) |
LNSC A SECURITY MODEL FOR ELECTRIC VEHICLE AND CHARGING PILE MANAGEMENT BASED ON BLOCKCHAIN ECOSYSTEM.pdf | 2018 | X. Huang; C. Xu; P. Wang; H. Liu | Institute of Network Technology, Beijing University of Posts and Telecommunications, Beijing, China; Institute of Network Technology, Beijing University of Posts and Telecommunications, Beijing, China; Smart City Innovation Center, Beijing Shougang Automation & Information Technology Co., Ltd., Beijing, China; Beijing Key Laboratory of Information Service Engineering, Beijing Union University, Beijing, China | CHINA | Blockchain;smart contract;vehicle charging;mutual authentication;Internet of Energy |
LOAD BALANCING IN DECENTRALIZED SMART GRID TRADE SYSTEM USING BLOCKCHAIN.pdf | 2018 | Seong, KI; Hwang, SO | Hongik University; Hongik University Korea | SOUTH KOREA | Blockchain; smart grid; demand response; security; framework |
LOANING DECISION FOR ELECTRIC VEHICLES UNDER UNCERTAIN ELECTRICITY PRICE IN THE BLOCKCHAIN INTERNET OF ENERGY.pdf | 2020 | Chen Y., Wang B. | Shanghai University, School of Mechatronic Engineering and Automation, Shanghai, China | CHINA | blockchain; energy trading; robust decision problem; uncertain electricity price |
LOCAL ELECTRICITY MARKET DESIGNS FOR PEER-TO-PEER TRADING THE ROLE OF BATTERY FLEXIBILITY.pdf | 2018 | Lüth A., Zepter J.M., Crespo del Granado P., Egging R. | Dept. of Industrial Economics and Technology Management (IØT), Norwegian University of Science and Technology, Trondheim, Norway; Workgroup for Infrastructure Policy (WIP), Technical University Berlin, Berlin, Germany | GERMANY NORWAY | Battery storage; Demand side flexibility; Local electricity market; Market design; Microgrid; Peer-to-peer trade |
LOCAL ELECTRICITY STORAGE FOR BLOCKCHAIN-BASED ENERGY TRADING IN INDUSTRIAL INTERNET OF THINGS.pdf | 2019 | Hou, WG; Guo, L; Ning, ZL | Chongqing University of Posts & Telecommunications; Xidian University; Dalian University of Technology; Nanjing University china | CHINA | Blockchain; energy trading; industrial Internet of Things (IIoT); local electricity storage |
LOCAL MARKET MECHANISMS SURVEY FOR PEER-TO-PEER ELECTRICITY TRADING ON BLOCKCHAIN PLATFORM.pdf | 2020 | ||||
LOKALPOWER ENABLING LOCAL ENERGY MARKETS WITH USER-DRIVEN ENGAGEMENT.pdf | 2018 | Meeuw A., Schopfer S., Ryder B., Wortmann F. | University of St. Gallen, St. Gallen, Switzerland; ETH Zurich Zurich, Switzerland | SWITZERLAND | Blockchain Technology; Eco-Feedback; Energy Transparency; Microgrids; Peer to Peer Markets; User Engagement |
LOW POWERED BLOCKCHAIN CONSENSUS PROTOCOLS BASED ON CONSISTENT HASH.pdf | 2019 | ||||
MACHINE LEARNING AIDED BLOCKCHAIN ASSISTED FRAMEWORK FOR WIRELESS NETWORKS.pdf | 2020 | ||||
MAKING RENEWABLE ENERGY CERTIFICATES EFFICIENT, TRUSTWORTHY, AND ANONYMOUS.pdf | 2020 | D. Karakashev; S. Gorbunov; S. Keshav | University of Waterloo,Cheriton School of Computer Science,Waterloo,Canada; University of Waterloo,Cheriton School of Computer Science,Waterloo,Canada; University of Cambridge,Dept. of Computer Science and Technology,Cambridge,England | CANADA | |
Mass Heterogeneous Terminal Consensus and Management Model of Power Internet of Things Based on Blockchain.pdf | 2021 | B. Shang; W. Zhai; J. Wang; W. Liu; Y. Du; Y. Li | State Grid Tianjin Electric Power Company,Tianjin,China; State Grid Tianjin Information & Elecommunication Company Key Laboratory of Energy Big Data Simulation of Tianjin Enterprise,Tianjin,China; State Grid Info & Telecom Co., Ltd. Beijing China-Power Information Technology Co.,Ltd.,Beijing,China; State Grid Info & Telecom Co., Ltd. Beijing China-Power Information Technology Co.,Ltd.,Beijing,China; State Grid Info & Telecom Co., Ltd. Beijing China-Power Information Technology Co.,Ltd.,Beijing,China; Artificial Intelligence Academy Tianjin University of Science and Technology,Tianjin,China | CHINA | voter;manager;electronic voting;blockchain;smart contract |
MATURITY OF BLOCKCHAIN TECHNOLOGY IN LOCAL ELECTRICITY MARKETS.pdf | 2018 | Richter, B; Mengelkamp, E; Weinhardt, C | Helmholtz Association; Karlsruhe Institute of Technology Germany | GERMANY | assessment; blockchain; local electricity market; maturity model; microgrid |
METHODS FOR FLEXIBLE MANAGEMENT OF BLOCKCHAIN-BASED CRYPTOCURRENCIES IN ELECTRICITY MARKETS AND SMART GRIDS.pdf | 2020 | Ghorbanian, M; Dolatabadi, SH; Siano, P; Kouveliotis-Lysikatos, I; Hatziargyriou, ND | Isfahan University of Technology; University of Salerno; National Technical University of Athens Italy Greece | GREECE ITALY | Cryptography; Smart grids; Blockchain; Pricing; Electricity supply industry; Cryptocurrencies; demand response; electricity markets; renewable generation; restructuring markets; smart power systems |
MICROGRID GROUP TRADING MODEL AND SOLVING ALGORITHM BASED ON BLOCKCHAIN.pdf | 2019 | Xu, ZX; Yang, DC; Li, WL | Northwestern Polytechnical University; China Agricultural University | CHINA | blockchain; microgrid group; ant colony algorithm; electricity trade |
MICROGRID TRADING GAME MODEL BASED ON BLOCKCHAIN TECHNOLOGY AND OPTIMIZED PARTICLE SWARM ALGORITHM.pdf | 2020 | B. Liu; M. Wang; J. Men; D. Yang | College of Information and Electrical Engineering, China Agricultural University, Beijing, China; College of Information and Electrical Engineering, China Agricultural University, Beijing, China; College of Automation and Electrical Engineering, Linyi University, Linyi, China; College of Information and Electrical Engineering, China Agricultural University, Beijing, China | CHINA | Blockchain;microgrid;optimized particle swarm algorithm (OPSO);game competition;energy storage system (ESS) |
MICROGRID TRANSACTIVE ENERGY REVIEW, ARCHITECTURES, DISTRIBUTED LEDGER TECHNOLOGIES, AND MARKET ANALYSIS.pdf | 2019 | ||||
MICROGRID TRANSACTIVE ENERGY SYSTEMS A PERSPECTIVE ON DESIGN, TECHNOLOGIES, AND ENERGY MARKETS.pdf | 2019 | Zia, MF; Elbouchikhi, E; Benbouzid, M; Guerrero, JM | Centre National de la Recherche Scientifique (CNRS); Centre National de la Recherche Scientifique (CNRS); Shanghai Maritime University; Aalborg University China France Denmark | CHINA DENMARK FRANCE | Transactive energy; microgrid; prosumers; distributed ledger technology; blockchain; peer-to-peer energy trading; community-based energy market |
MinerRepu A Reputation Model for Miners in Blockchain Networks.pdf | 2021 | Alofi A., Bahsoon R., Hendley R. | School of Computer Science, University of Birmingham, Birmingham, United Kingdom; Umm Al Qura University, Makkah, Saudi Arabia | SAUDI ARABIA UNITED KINGDOM | Blockchain; Energy Consumption; Miner; Proof of Work; Reputation Model; Trust Model |
MITIGATING TRUST ISSUES IN ELECTRIC VEHICLE CHARGING USING A BLOCKCHAIN.pdf | 2019 | ||||
MODEL CHECKING PBFT CONSENSUS MECHANISM IN HEALTHCARE BLOCKCHAIN NETWORK.pdf | 2018 | ||||
Model Predictive Control for Microgrid Functionalities Review and Future Challenges.pdf | 2021 | ||||
Modeling and Analysis of Data Trading on Blockchain-Based Market in IoT Networks.pdf | 2021 | ||||
MODELING IN SUPPORT OF MULTI-PERSPECTIVE VALUATION OF SMART GRID INITIATIVES.pdf | 2018 | Kaczmarek-Heß M., De Kinderen S., Ma Q., Razo-Zapata I.S. | University of Duisburg-Essen, Essen, Germany; University of Luxembourg, Esch-sur-Alzette, Luxembourg; Luxembourg Institute of Science and Technology, Esch-sur-Alzette, Luxembourg | GERMANY LUXEMBOURG | model-driven analysis; smart grid; valuation |
MODELING OF DISTRIBUTED LEDGER DEPLOYMENT VIEW.pdf | 2020 | Górski T., Bednarski J. | Department of Computer Science, Polish Naval Academy, Gdynia, Poland | POLAND | Architectural views model 1+5; Blockchain; Deployment view; Distributed Ledger Technology; Software architecture; Unified Modeling Language extensibility mechanisms |
Modelling and analysis of a two-level incentive mechanism based peer-to-peer energy sharing community.pdf | 2021 | Wang, YH; Cao, YJ; Li, Y; Jiang, L; Long, YL; Deng, YY; Zhou, YC; Nakanishi, Y | Hunan University; University of Liverpool; Waseda University United Kingdom Japan China | CHINA JAPAN UNITED KINGDOM | Blockchain; Distributed energy resources; Energy market; Game theory; Peer-to-peer energy trading |
Model-of-decentralized-crosschain-energy-trading-for-power-systemsGlobal-Energy-Interconnection.pdf | 2021 | ||||
MORE SUSTAINABLE BIOENERGY BY MAKING USE OF REGIONAL ALTERNATIVE BIOMASS.pdf | 2020 | Pehlken, A; Wulf, K; Grecksch, K; Klenke, T; Tsydenova, N | Carl von Ossietzky Universitat Oldenburg; University of Oxford; Carl von Ossietzky Universitat Oldenburg United Kingdom Germany | GERMANY UNITED KINGDOM | regional supply chain; MCDA; PROMETHEE; biogas; SDG; sustainable management; stakeholders |
MULTI-AGENT ARCHITECTURE FOR PEER-TO-PEER ELECTRICITY TRADING BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2019 | Y. Mezquita; A. S. Gazafroudi; J. M. Corchado; M. Shafie-Khah; H. Laaksonen; A. Kamišalić | BISITE Research Group, University of Salamanca,Salamanca,Spain; BISITE Research Group, University of Salamanca,Salamanca,Spain; School of Technology and Innovations, University of Vaasa,Vaasa,Finland; BISITE Research Group, University of Salamanca,Salamanca,Spain; School of Technology and Innovations, University of Vaasa,Vaasa,Finland; University of Maribor,Faculty of Electrical Engineering and Computer Science,Maribor,Slovenia | FINLAND SLOVENIA SPAIN | Blockchain;local electricity market;multi-agent system;peer-to-peer;smart grid |
Multi-Agent LSTM Optimal Strategy of Microgrid-Distribution Layered Network Considering High Proportion of Renewable Energy.pdf | 2021 | Lu W., Shen Y., Kong X., Hu W., Sun F. | Tianjin University, Key Laboratory of Smart Grid of Ministry of Education, Tianjin, 300072, China | CHINA | dispatch strategy; energy blockchain; multi-subject optimization; power market; renewable energy resource |
MULTI-AGENT SYSTEMS AND BLOCKCHAIN RESULTS FROM A SYSTEMATIC LITERATURE REVIEW.pdf | 2018 | ||||
MULTI-PARTY ENERGY MANAGEMENT OF ENERGY HUB- A HYBRID APPROACH WITH STACKELBERG GAME AND BLOCKCHAIN.pdf | 2020 | ||||
MULTIPLE AUTHORITIES ATTRIBUTE-BASED VERIFICATION MECHANISM FOR BLOCKCHAIN MIRCOGRID TRANSACTIONS.pdf | 2018 | Tang F., Pang J., Cheng K., Gong Q. | School of Computer Science and Technology, Chongqing University of Posts and Telecommunications, Chongqing, 400065, China; School of Cyber Security and Information Law, Chongqing University of Posts and Telecommunications, Chongqing, 400065, China; School of Software Engineering, Chongqing University of Posts and Telecommunications, Chongqing, 400065, China | CHINA | |
MULTI-USE OF STATIONARY BATTERY STORAGE SYSTEMS WITH BLOCKCHAIN BASED MARKETS.pdf | 2018 | Truong C.N., Schimpe M., Bürger U., Hesse H.C., Jossen A. | Technical University of Munich (TUM), Institute for Electrical Energy Storage Technology, Arcisstr. 21, Munich, 80333, Germany; SmartPower GmbH, Dornacher Str. 3, Feldkirchen, 85622, Germany | GERMANY | Auction market; Energy storage; Internet of things; Microgrid; Multi-objective; Multi-purpose; Operation strategy; Sharing economy; Smart contract; Stacked services |
MULTI-UTILITY FRAMEWORK BLOCKCHAIN EXCHANGE PLATFORM FOR SUSTAINABLE DEVELOPMENT.pdf | 2020 | ||||
MULTI-UTILITY FRAMEWORK- BLOCKCHAIN EXCHANGE PLATFORM FOR SUSTAINABLE DEVELOPMENT.pdf | 2020 | ||||
NETWORKED MICROGRID SECURITY AND PRIVACY ENHANCEMENT BY THE BLOCKCHAIN-ENABLED INTERNET OF THINGS APPROACH.pdf | 2019 | Dabbaghjamanesh, M; Wang, B; Mehraeen, S; Zhang, J; Kavousi-Fard, A | Louisiana State University System; Louisiana State University; University of Texas System; University of Texas Dallas; University of Michigan System; University of Michigan United States | UNITED STATES | Cybersecurity; networked microgrids; power trading; uncertainty; Blockchain technology |
NEW APPROACH FOR SMART COMMUNITY GRID THROUGH BLOCKCHAIN AND SMART CHARGING INFRASTRUCTURE OF EVS.pdf | 2019 | Lazaroiu C., Roscia M. | University Politechinica of Bucarest, Department of Power Systems, Romania; University of Bergamo, Department of Engineering and Applied Sciences, Italy | ITALY OMAN ROMANIA | Blockchain; Edge computing; Evs; Homer software; Prosumers; Smart metering |
NEW MARKET MODEL WITH SOCIAL AND COMMERCIAL TIERS FOR IMPROVED PROSUMER TRADING IN MICROGRIDS.pdf | 2020 | Neagu, BC; Ivanov, O; Grigoras, G; Gavrilas, M; Istrate, DM | GH Asachi Technical University Romania | OMAN ROMANIA | local electricity market; smart grids; energy crowdsourcing; renewable energy sources; prosumers; blockchain technology; energy poverty; smart contracts |
NOVEL MARKET APPROACH FOR LOCALLY BALANCING RENEWABLE ENERGY PRODUCTION AND FLEXIBLE DEMAND.pdf | 2017 | Horta J., Kofman D., Menga D., Silva A. | Telecom Paristech, 23 Avenue d'Italie, Paris, France; EDF RandD, EDF Lab Paris-Saclay, Palaiseau, 91120, France; Nokia Bell Labs, Nokia Paris-Saclay, Route de Villejust, Nozay, 91620, France | FRANCE | |
Off-chain state channels in the energy domain.pdf | 2021 | Brunner, C; Madhusudan, A; Engel, D; Preneel, B | KU Leuven Belgium | BELGIUM | State Channels; Blockchain; Smart Grid |
On cloud-based systems and distributed platforms for smart grid integration Challenges and prospects for Ghana's Grid Network.pdf | 2021 | ||||
ON THE APPLICABILITY OF DISTRIBUTED LEDGER ARCHITECTURES TO PEER-TO-PEER ENERGY TRADING FRAMEWORK.pdf | 2018 | Nguyen, VH; Besanger, Y; Tran, QT; Le, MT | Communaute Universite Grenoble Alpes; Institut National Polytechnique de Grenoble; Universite Grenoble Alpes (UGA); Centre National de la Recherche Scientifique (CNRS); CEA France | FRANCE | peer-to-peer energy trading; microgrid; Blockchain; Block Lattice; Directed Acyclic Graph |
ON THE APPLICABILITY OF THE GRIDNET PROTOCOL TO SMART GRID ENVIRONMENTS.pdf | 2017 | Nguyen, VH; Besanger, Y; Tran, QT; Le, MT | Communaute Universite Grenoble Alpes; Institut National Polytechnique de Grenoble; Universite Grenoble Alpes (UGA); Centre National de la Recherche Scientifique (CNRS); CEA France | FRANCE | peer-to-peer energy trading; microgrid; Blockchain; Block Lattice; Directed Acyclic Graph |
ON THE POTENTIAL OF PHOTOVOLTAICS PLUS ELECTRIC VEHICLES FOR DEEP DECARBONIZATION OF KYOTO'S POWER SYSTEMS- TECHNO-ECONOMIC-SOCIAL CONSIDERATIONS.pdf | 2020 | Kobashi T., Yoshida T., Yamagata Y., Naito K., Pfenninger S., Say K., Takeda Y., Ahl A., Yarime M., Hara K. | Center for Global Environmental Research, National Institute for Environmental Studies, 16-2 Onogawa, Tsukuba, Ibaraki 305-8506, Japan; Research Institute for Humanity and Nature, 457-4 Motoyama, Kamigamo, Kita-ku, Kyoto, 603-8047, Japan; Kyoto University, Join Research Project for Renewable Energy Economics, Kyoto University, Yoshida-Honmachi, Sakyuo-ku, Kyoto, 606-8501, Japan; Department of Environmental Systems Science, ETH Zürich, Universitätstrasse 16, Zürich, 8092, Switzerland; University of Melbourne, 187 Grattan Street, Carlton, VIC 3053, Melbourne, Australia; Graduate School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyō, Tokyo 113-8654, Japan; Department of Innovation Science, School of Environment and Society, Tokyo Institute of Technology, 3-3-6 Shibaura, Minato, Tokyo 105-0023, Japan; Division of Public Policy, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong; Department of Science, Technology, Engineering and Public Policy, University College London, Gower Street, London, WC1E 6BT, United Kingdom; Graduate School of Public Policy, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan; Graduate School of Engineering, Osaka University, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan | AUSTRALIA HONG KONG JAPAN SWITZERLAND UNITED KINGDOM | Electric vehicles; Peer-to-peer power trading; Photovoltaics; Renewable energy; Techno-economic analysis; Urban decarbonization |
ON THE SCALABILITY OF BLOCKCHAIN-SUPPORTED LOCAL ENERGY MARKETS.pdf | 2018 | F. Blom; H. Farahmand | Department of Electric Power Engineering, Norwegian University of Science and Technology, Trondheim, Norway; Department of Electric Power Engineering, Norwegian University of Science and Technology, Trondheim, Norway | NORWAY | Blockchain;local energy market;scalability;market design |
Operational and Economic Feasibility Area Estimation for Peer-to-Peer Consortium of Storage Systems in a Blockchain Framework.pdf | 2021 | Khani H., Farag H.E.Z., El-Saadany E.F. | Department of Electrical Engineering and Computer Science, York University, Toronto, ON, Canada; Advanced Power and Energy Center, Department of Electrical Engineering and Computer Science, Khalifa University, Abu Dhabi, United Arab Emirates | CANADA UNITED ARAB EMIRATES | Blockchain; energy storage; feasibility areas; peer-to-peer (P2P) consortium; scheduling |
OPTIMAL AUCTION FOR EDGE COMPUTING RESOURCE MANAGEMENT IN MOBILE BLOCKCHAIN NETWORKS A DEEP LEARNING APPROACH.pdf | 2018 | Luong N.C., Xiong Z., Wang P., Niyato D. | School of Computer Science and Engineering, Nanyang Technological University, Singapore, 639798, Singapore | SINGAPORE | Auction; Deep learning; Edge computing; Mobile blockchain network |
Optimal Dispatch of Consumer-Side Distributed Resources Based on IoT and Energy Blockchain.pdf | 2021 | ||||
OPTIMAL ENERGY TRANSACTION LEDGER MODEL FOR MICROGRID ENERGY TRADING.pdf | 2019 | ||||
Optimal Model for Direct Power Purchase by Large Consumers Based on Blockchain.pdf | 2021 | Tian Y., Lu J., Han X., Wang F., Zhen Z., Catalao J.P.S. | North China Electric Power University, Department of Electrical Engineering, Baoding, China; University of Porto and INESC TEC, Faculty of Engineering, Porto, 4200-465, Portugal | CHINA PORTUGAL | Blockchain; Direct power purchase by large consumers; Electricity markets; Market design |
Optimal operation and management of multi-microgrids using blockchain technology.pdf | 2021 | ||||
OPTIMAL SCHEDULING AND MANAGEMENT OF A SMART CITY WITHIN THE SAFE FRAMEWORK.pdf | 2020 | Q. Duan; N. V. Quynh; H. M. Abdullah; A. Almalaq; T. Duc Do; S. M. Abdelkader; M. A. Mohamed | Hubei Key Laboratory for High-Efficiency Utilization of Solar Energy and Operation Control of Energy Storage System, School of Electrical and Electronic Engineering, Hubei University of Technology, Wuhan, China; Electrical and Electronics Department, Lac Hong University, Dong Nai, Vietnam; ReHub United Research and Consultation Company, Salmiya, Kuwait; Department of Electrical Engineering, University of Hail, Hail, Saudi Arabia; Department of Robotics and Mechatronics, School of Engineering and Digital Sciences (SEDS), Nazarbayev University, Nur-Sultan, Kazakhstan; Electrical Power Engineering Department, Egypt-Japan University of Science and Technology (E-JUST), Alexandria, Egypt; Department of Electrical Engineering, Fuzhou University, Fuzhou, China | CHINA EGYPT JAPAN KAZAKHSTAN KUWAIT SAUDI ARABIA VIETNAM | Smart city;transportation system;microgrid;energy management;smart grid;unscented transform |
OPTIMIZATION OF WORKFLOW SCHEDULING IN AN ENERGY-AWARE CLOUD ENVIRONMENT.pdf | 2020 | ||||
Optimizing_Blockchain_Based_Smart_Grid_Auctions_A_Green_Revolution.pdf | 2021 | ||||
Optimum Management of Energy Exchanges in Microgrid Electricity Market Based on Blockchain Technology.pdf | 2021 | ||||
p An effective distributed approach based machine learning for energy negotiation in networked microgrids.pdf | 2021 | Chen, J; Alnowibet, K; Annuk, A; Mohamed, MA | King Saud University; Estonian University of Life Sciences; Egyptian Knowledge Bank (EKB); Minia University | EGYPT ESTONIA | Energy negotiation; Distributed optimization approach; Networked microgrid; Uncertainty; Reinforcement learning; Energy management |
P2P ENERGY TRADING BASED ON BLOCKCHAIN AND CUSTOMER RISK PREFERENCE.pdf | 2020 | Chen T., Tian W., Wu J., Lin Y., Yao Y., Gao C. | Southeast University, School of Electrical Engineering, Nanjing, China; China Electric Power Research Institute Co. Ltd, Nanjing, China; Zhejiang Power Exchange Center Co. Ltd, Hangzhou, China | CHINA | Blockchain; Electricity market; P2P energy trading; Risk Preference |
P2PEdge A Decentralised, Scalable P2P Architecture for Energy Trading in Real-Time.pdf | 2021 | Kalbantner, J; Markantonakis, K; Hurley-Smith, D; Akram, RN; Semal, B | University of London; Royal Holloway University London; University of Aberdeen United Kingdom | UNITED KINGDOM | smart grid; security; STRIDE; decentralised P2P model; state channel; blockchain; edge computing |
PEER TO PEER ENERGY TRADE AMONG MICROGRIDS USING BLOCKCHAIN BASED DISTRIBUTED COALITION FORMATION METHOD.pdf | 2018 | ||||
Peer-To-Peer Decentralised Local Energy Trading Markets Using Blockchain.pdf | 2021 | ||||
PEER-TO-PEER ENERGY SHARING EFFECTIVE COST-SHARING MECHANISMS AND SOCIAL EFFICIENCY.pdf | 2019 | Chau S.C.-K., Xu J., Bow W., Elbassioni K. | Australian National University, Australia; James Cook University, Australia; Khalifa University, United Arab Emirates | AUSTRALIA UNITED ARAB EMIRATES | Cost-Sharing Mechanisms; Peer-to-Peer Energy Sharing; Sharing Economy; Social Efficiency; Strong Price of Anarchy |
Peer-to-peer energy trading A review of the literature.pdf | 2020 | ||||
PEER-TO-PEER ENERGY TRADING AMONG MICROGRIDS WITH MULTIDIMENSIONAL WILLINGNESS.pdf | 2018 | Wang, N; Xu, WS; Xu, ZY; Shao, WH | Tongji University; Tongji University china | CHINA | microgrids; distributed energy resource; peer-to-peer energy trading; multidimensional willingness; bidding strategy |
Peer-to-Peer energy trading in a microgrid based on iterative double auction and blockchain.pdf | 2021 | Zhang, C; Yang, T; Wang, Y | Huazhong University of Science & Technology; State University of New York (SUNY) System; State University of New York (SUNY) Binghamton United States China | CHINA UNITED STATES | Microgrid; Peer-to-Peer energy trading; Equilibrium; Iterative double auction; Blockchain |
Peer-to-peer energy trading in a microgrid leveraged by smart contracts.pdf | 2021 | Vieira, G; Zhang, J | University of Southampton United Kingdom | UNITED KINGDOM | Emerging applications of agent-based; Systems; Auctions; Peer-to-peer energy trading; Smart contracts |
PEER-TO-PEER ENERGY TRADING IN VIRTUAL POWER PLANT BASED ON BLOCKCHAIN SMART CONTRACTS.pdf | 2020 | S. Seven; G. Yao; A. Soran; A. Onen; S. M. Muyeen | Software Engineering Department, Abdullah Gül University, Kayseri, Turkey; Sino-Dutch Mechatronics Engineering Department, Shanghai Maritime University, Shanghai, China; Computer Engineering Department, Abdullah Gül University, Kayseri, Turkey; Electrical-Electronics Engineering Department, Abdullah Gül University, Kayseri, Turkey; School of Electrical Engineering Computing and Mathematical Sciences, Curtin University, Perth, WA, Australia | AUSTRALIA CHINA TURKEY | Bidding system;blockchain;Ethereum;peer-to-peer (P2P) energy trading;smart contract;virtual power plant (VPP) |
PEER-TO-PEER ENERGY TRADING PLATFORM USING CONSORTIUM BLOCKCHAIN.pdf | 2020 | Feng Y., Fan J., Wang J., Li Y. | Jiangsu Power Exchange Center Co. Ltd, Nanjing, China; Southeast University, School of Cyber Science and Engineering, Nanjing, China; Southeast University, School of Electrical Engineering, Nanjing, China | CHINA | consortium blockchain; double auction; peer-to-peer energy trading; smart contract; system architecture |
Peer-to-Peer_Energy_Trading_in_Smart_Grid_Through_Blockchain_A_Double_Auction-Based_Game_Theoretic_Approach.pdf | 2021 | H. T. Doan; J. Cho; D. Kim | Department of Future Convergence Technology, Soonchunhyang University, Asan, South Korea; Department of Electrical Engineering, Soonchunhyang University, Asan, South Korea; Department of Future Convergence Technology, Soonchunhyang University, Asan, South Korea | SOUTH KOREA | Energy trading;peer-to-peer;demand response (DR);real-time market;Stackelberg game;blockchain |
Peer-to-Peer_Energy_Trading_Mechanism_Based_on_Blockchain_and_Machine_Learning_for_Sustainable_Electrical_Power_Supply_in_Smart_Grid.pdf | 2021 | ||||
Performance Analysis of a Blockchain Based Peer-to-Peer Energy Trading Framework.pdf | 2021 | H. Malik; A. Manzoor; M. Ylianttila; M. Liyanage | Centre for Wireless Communications, University of Oulu,Finland; Rovio Entertainment Company,Espoo,Finland; Centre for Wireless Communications, University of Oulu,Finland; School of Computer Science, University College Dublin,Ireland | FINLAND IRELAND | Smart Grid;Blockchain;Smart Contract;Ethereum;Hyper Ledger;Scalability;Performance |
PERMISSIONED BLOCKCHAIN AND EDGE COMPUTING EMPOWERED PRIVACY-PRESERVING SMART GRID NETWORKS.pdf | 2018 | Gai K., Wu Y., Zhu L., Xu L., Zhang Y. | School of Computer Science and Technology, Beijing Institute of Technology, Beijing, 100081, China; Department of Informatics, University of Oslo, Norway | CHINA NORWAY | Edge computing; permissioned blockchain; privacy-preserving; smart grid network (SGN) |
PERMISSIONED BLOCKCHAINS AND VIRTUAL NODES FOR REINFORCING TRUST BETWEEN AGGREGATORS AND PROSUMERS IN ENERGY DEMAND RESPONSE SCENARIOS.pdf | 2019 | Patsonakis, C; Terzi, S; Moschos, I; Ioannidis, D; Votis, K; Tzovaras, D | Centre for Research & Technology Hellas Greece | GREECE | demand response; fog computing; ToT devices; blockchains; smart contracts; virtual node; end-to-end security |
PF-BVM A PRIVACY-AWARE FOG-ENHANCED BLOCKCHAIN VALIDATION MECHANISM.pdf | 2020 | ||||
Platform for Vertical Coordination of Secondary Control Reserve using Blockchain Technology.pdf | 2021 | H. Cai; X. Song; Q. Zhao; T. Jiang; S. Schlegel; D. Westermann | Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany; Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany; Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany; Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany; Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany; Power Systems Group, Technische Universität Ilmenau, Ilmenau, Germany | GERMANY | |
POTENTIAL IMPACTS OF BLOCKCHAIN BASED EQUITY CROWDFUNDING ON THE ECONOMIC FEASIBILITY OF OFFSHORE WIND ENERGY INVESTMENTS.pdf | 2020 | Stekli, J; Cali, U | Electric Power Research Institute (EPRI); Norwegian University of Science & Technology (NTNU) united states | UNITED STATES | |
POWER-TO-PEER A BLOCKCHAIN P2P POST-DELIVERY BILATERAL LOCAL ENERGY MARKET.pdf | 2020 | J. Mello; J. Villar; R. J. Bessa; M. Lopes; J. Martins; M. Pinto | INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal; INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal; INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal; INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal; INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal; INESC TEC - Institute for Systems and Computer Engineering, Technology and Science,Porto,Portugal | PORTUGAL | Market Design;Local energy markets;Renewable energy sources;Energy Policy;Blockchain |
Practical Insights to Design a Blockchain-Based Energy Trading Platform.pdf | 2021 | V. Hosseinnezhad; B. Hayes; B. O’regan; P. Siano | School of Engineering and Architecture, University College Cork (UCC), Cork 21, Ireland; School of Engineering and Architecture, University College Cork (UCC), Cork 21, Ireland; International Energy Research Centre (IERC), Tyndall National Institute, Cork 21, Ireland; Department of Management and Innovation Systems, University of Salerno, Fisciano, Italy | IRELAND ITALY | Local market;P2P energy market;transactive management platform;blockchain;IoT |
Practical Model for Optimal Carbon Control With Distributed Energy Resources.pdf | 2021 | J. Su; Z. Li; A. J. Jin | Maritime Faculty, Ningbo University, Ningbo, China; Maritime Faculty, Ningbo University, Ningbo, China; Maritime Faculty, Ningbo University, Ningbo, China | CHINA | Distributed energy resources;decarbonized power;energy blockchain power generation;microgrid;optimal scheduling;peer-to-peer transactions;power use balance;renewable energy |
Prediction_Markets_for_Probabilistic_Forecasting_of_Renewable_Energy_Sources.pdf | 2021 | ||||
PRIVACY-PRESERVING BLOCKCHAIN-BASED ELECTRIC VEHICLE CHARGING WITH DYNAMIC TARIFF DECISIONS.pdf | 2018 | Knirsch F., Unterweger A., Engel D. | Josef Ressel Center for User-Centric Smart Grid Privacy, Security and Control, Salzburg University of Applied Sciences, Urstein Süd 1, Puch b. Hallein, 5412, Austria | AUSTRIA | Blockchain; Electric vehicles; Privacy |
Privacy-Preserving Cross-Chain Payment Scheme for Blockchain-Enabled Energy Trading.pdf | 2021 | ||||
PRIVACY-PRESERVING ELECTRIC VEHICLE CHARGING FOR PEER-TO-PEER ENERGY TRADING ECOSYSTEMS.pdf | 2019 | Radi E.M., Lasla N., Bakiras S., Mahmoud M. | Division of Information and Computing Technology, College of Science and Engineering, Hamad Bin Khalifa University, Qatar; Dept. of Electrical and Computer Engineering Tennessee Tech University, United States | QATAR UNITED STATES | |
PRIVACY-PRESERVING ENERGY SCHEDULING FOR ESCOS BASED ON ENERGY BLOCKCHAIN NETWORK.pdf | 2019 | Tan, SM; Wang, X; Jiang, CW | Shanghai Jiao Tong University China | CHINA | blockchain; energy service company; privacy-preserving; energy scheduling model |
PRIVACY-PRESERVING ENERGY TRADING USING CONSORTIUM BLOCKCHAIN IN SMART GRID.pdf | 2019 | Gai, KK; Wu, YL; Zhu, LH; Qiu, MK; Shen, M | Beijing Institute of Technology; Columbia University china United States | CHINA UNITED STATES | Consortium blockchain; differential privacy; neighboring energy trading; privacy-preserving; smart grid |
PRIVACY-PRESERVING NETTING IN LOCAL ENERGY GRIDS.pdf | 2020 | J. Eberhardt; M. Peise; D. -H. Kim; S. Tai | Technische Universiät Berlin,Information Systems Engineering (ISE),Berlin,Germany; Technische Universiät Berlin,Information Systems Engineering (ISE),Berlin,Germany; Technische Universiät Berlin,Information Systems Engineering (ISE),Berlin,Germany; Technische Universiät Berlin,Information Systems Engineering (ISE),Berlin,Germany | GERMANY | Energy Trading;Blockchain Privacy;ZoKrates;Off-chaining;Off-chain Computations |
PRIVACY-PRESERVING PEER-TO-PEER ENERGY TRADING IN BLOCKCHAIN-ENABLED SMART GRIDS USING FUNCTIONAL ENCRYPTION.pdf | 2020 | Son, YB; Im, JH; Kwon, HY; Jeon, SY; Lee, MK | Inha University Korea | SOUTH KOREA | smart grid; blockchain; peer-to-peer energy trading; privacy protection; functional encryption |
Privacy-Preserving Schemes for Safeguarding Heterogeneous Data Sources in Cyber-Physical Systems.pdf | 2021 | ||||
Privacy-Preserving Transactive Energy Management for IoT-Aided Smart Homes via Blockchain.pdf | 2021 | Yang Q., Wang H. | Blockchain Technology Research Center, The College of Electronics and Information Engineering, Shenzhen University, Shenzhen, China; Department of Data Science and Artificial Intelligence, Faculty of Information Technology, Monash University, Melbourne, VIC, Australia | AUSTRALIA CHINA | Blockchain; distributed energy resources (DERs); distributed optimization; Internet of Things (IoT); privacy preserving; transactive energy |
Privacy-Preserving_Blockchain-Based_Energy_Trading_Schemes_for_Electric_Vehicles.pdf | 2021 | ||||
PROCESSING ELECTRIC VEHICLE CHARGING TRANSACTIONS IN A BLOCKCHAIN-BASED INFORMATION SYSTEM EMERGENT RESEARCH FORUM (ERF).pdf | 2018 | ||||
Proof of Federated Learning A Novel Energy-Recycling Consensus Algorithm.pdf | 2021 | ||||
Proof of X Experimental Insights on Blockchain Consensus Algorithms in Energy Markets.pdf | 2021 | Machacek, T; Biswal, M; Misra, S | MITRE Corporation; New Mexico State University | MEXICO | Microgrid energy trading; smart grid; blockchain double-auction |
PROOF-OF-BENEFIT A BLOCKCHAIN-ENABLED EV CHARGING SCHEME.pdf | 2019 | C. Liu; K. K. Chai; X. Zhang; Y. Chen | Sch. of Electr. Eng. & Comput. Sci., Queen Mary Univ. of London, London, UK; Sch. of Electr. Eng. & Comput. Sci., Queen Mary Univ. of London, London, UK; Sch. of Electr. Eng. & Comput. Sci., Queen Mary Univ. of London, London, UK; Sch. of Electr. Eng. & Comput. Sci., Queen Mary Univ. of London, London, UK united kingdom | UNITED KINGDOM | |
PROOF-OF-STAKE CONSENSUS MECHANISMS FOR FUTURE BLOCKCHAIN NETWORKS FUNDAMENTALS, APPLICATIONS AND OPPORTUNITIES.pdf | 2019 | ||||
Proposed framework for blockchain technology in a decentralised energy network.pdf | 2021 | Dzobo, O; Malila, B; Sithole, L | University of Johannesburg; University of Cape Town South Africa | SOUTH AFRICA | Blockchain technology; Distributed renewable energy sources; Energy delivery; Smart contract; Distributed cloud storage system |
PROVIDING PRIVACY, SAFETY, AND SECURITY IN IOT-BASED TRANSACTIVE ENERGY SYSTEMS USING DISTRIBUTED LEDGERS.pdf | 2017 | Laszka A., Dubey A., Walker M., Schmidt D. | Vanderbilt University, United States | UNITED STATES | Anonymity; Blockchain; Internet of Things; Privacy; Security; Smart grid; Transactive energy; Transactive microgrid |
PRS-P2P A Prosumer Recommender System for Secure P2P Energy Trading using Q-Learning Towards 6G.pdf | 2021 | Kumari A., Gupta R., Tanwar S. | Nirma University, Institute of Technology, Department of Computer Science and Engineering, Gujarat, Ahmedabad, India | INDIA | Artificial Intelligence; Blockchain; Recommender System; Reinforcement Learning; Smart Grid |
Q-LEARNING BASED PROTECTION SCHEME FOR MICROGRID USING MULTI-AGENT SYSTEM.pdf | 2019 | ||||
RBT A distributed reputation system for blockchain-based peer-to-peer energy trading with fairness consideration.pdf | 2021 | Wang T., Guo J., Ai S., Cao J. | Department of Automation, Tsinghua University, Haidian District, Beijing, 100084, China; Beijing National Research Center for Information Science and Technology, Tsinghua University, Haidian District, Beijing, 100084, China; Department of Electrical Engineering, Tsinghua University, Haidian District, Beijing, 100084, China | CHINA | Blockchain; Consensus; Energy Internet; Peer-to-peer energy trading; Reputation; Smart contract |
REACTIVE POWER OPTIMIZATION AND PRICE MANAGEMENT IN MICROGRID ENABLED WITH BLOCKCHAIN.pdf | 2020 | Danalakshmi, D; Gopi, R; Hariharasudan, A; Otola, I; Bilan, Y | GMR Institute of Technology; Kalasalingam Academy of Research & Education; Technical University Czestochowa; Rzeszow University of Technology India Poland | INDIA POLAND | reactive power; optimization; microgrid; blockchain; power loss; differential evolution |
Realizing the Potential of Blockchain Technology in smart Grid Applications.pdf | 2020 | Kuzlu, M; Sarp, S; Pipattanasomporn, M; Cali, U | Old Dominion University; Chulalongkorn University; University of North Carolina; University of North Carolina Charlotte United States Thailand | THAILAND UNITED STATES | Blockchain; smart grid; blockchain projects. |
REAL-TIME AUTONOMOUS TRADING IN THE ELECTRICITY-AND-HEAT DISTRIBUTION MARKET BASED ON BLOCKCHAIN.pdf | 2019 | ||||
Real-Time Bidding Model of Cryptocurrency Energy Trading Platform.pdf | 2021 | Wu, Y; Li, JX; Gao, J | University of Shanghai for Science & Technology China | CHINA | blockchain; cryptocurrency; energy trading; real-time pricing |
REAL-TIME PEER TO PEER ENERGY TRADE WITH BLOCKCHAIN OFFLINE CHANNELS.pdf | 2020 | S. Thakur; J. G. Breslin | National University of Ireland, Galway,Galway,Ireland; National University of Ireland, Galway,Galway,Ireland | IRELAND | Peer to Peer Energy trade;Blockchains;Offline Channels |
Recycling bread waste into chemical building blocks using a circular biorefining approach.pdf | 2021 | ||||
Regional Flexibility Markets-Solutions to the European Energy Distribution Grid-A Systematic Review and Research Agenda.pdf | 2021 | Rosch, T; Treffinger, P; Koch, B | Hochschule Offenburg; University of Freiburg Germany | GERMANY | energy policy Germany; EEG; electric power grids; power grid stability; photovoltaic wind energy; pricing |
Reliable Data Transmission over Energy-Efficient Vehicular Network Based on Blockchain and MEC.pdf | 2021 | X. Ye; M. Li; F. R. Yu; P. Si; Z. Wang; Y. Zhang | Beijing University of Technology,Faculty of Information Technology,Beijing,P.R. China; Beijing University of Technology,Faculty of Information Technology,Beijing,P.R. China; Carleton University,Department of Systems and Computer Engineering,Ottawa,ON,Canada; Beijing University of Technology,Faculty of Information Technology,Beijing,P.R. China; Beijing University of Technology,Faculty of Information Technology,Beijing,P.R. China; Beijing University of Technology,Faculty of Information Technology,Beijing,P.R. China | CANADA CHINA | Electric vehicles;billing data interaction;blockchain;mobile edge computing;reinforcement learning |
Renewable energy system paradigm change from trending technology.pdf | 2020 | Wang D., Xuan J., Chen Z., Li D., Shi R. | State Grid Electronic Commerce Co., Ltd., Beijing, 100053, China; State Grid Blockchain Technology (Beijing) Co., Ltd., Beijing, 100053, China; State Grid Information and Telecommunication Branch, Beijing, 100761, China | CHINA | |
RENEWLEDGER RENEWABLE ENERGY MANAGEMENT POWERED BY HYPERLEDGER FABRIC.pdf | 2020 | ||||
RESCOIN TO IMPROVE PROSUMER SIDE MANAGEMENT INTO SMART CITY.pdf | 2018 | Lazaroiu, C; Roscia, M | Polytechnic University of Bucharest; University of Bergamo Romania Italy | ITALY OMAN ROMANIA | Demand Side Management; Smart city; Sustainable prosumer; IoT; Smart Agent; Smart Load; Virtual Power Plant; Blockchain; RESCoin |
RESEARCH AND APPLICATION OF BLOCKCHAIN TECHNOLOGY IN SMART GRID.pdf | 2020 | Liu T., Cao X., Jiang H., Xi J., Wu S., Lu Y. | Shenzhen Power Supply Bureau Co.Ltd, Shenzhen, Guangdong, China; National Engineering Laboratory of Mobile Network Security, School of Cyberspace Security Beijing, University of Posts and Telecommunications, Beijing, China; School of Cyberspace Security, Beijing University of Posts and Telecommunications, Beijing, China | CHINA | Blockchain; Energy Data Sharing; Energy internet; Security; Smart Grid |
Research and Application of Digital Twin Technology in Power Grid Development Business.pdf | 2021 | ||||
Research and Application of Renewable Energy Power Consumption Certificate Based on Blockchain.pdf | 2021 | ||||
RESEARCH OF BLOCKCHAIN IN POWER DIRECT TRADING MODE.pdf | 2018 | Lei W., Qian Z., Jingwei L., Shuhong S. | Nanrui Group Corporation, State Grid Electric Power Research Institute, Nanjing, 210003, China; Beijing Kedong Electric Power Control System Co. Ltd., Beijing, 100194, China | CHINA | |
RESEARCH ON A DATA DESENSITIZATION ALGORITHM OF BLOCKCHAIN DISTRIBUTED ENERGY TRANSACTION BASED ON DIFFERENTIAL PRIVACY.pdf | 2019 | Y. Li; N. Li; Y. Xia | NARI Group Corporation,State Grid Electric Power Research Institute,Nanjing,China,211106; NARI Group Corporation,State Grid Electric Power Research Institute,Nanjing,China,211106; NARI Group Corporation,State Grid Electric Power Research Institute,Nanjing,China,211106 | CHINA | differential privacy;demolding algorithm;blockchain;distributed energy trading |
RESEARCH ON APPLICATION MODEL OF BLOCKCHAIN TECHNOLOGY IN DISTRIBUTED ELECTRICITY MARKET.pdf | 2017 | Cheng, S; Zeng, B; Huang, YZ | North China Electric Power University | CHINA | |
RESEARCH ON APPLICATION OF BLOCKCHAIN TECHNOLOGY IN DISTRIBUTED ENERGY TRADING OF MICROGRID.pdf | 2020 | S. Li; H. Sun; Y. Zeng; Y. Yu | State Grid Chongqing Electric Power Research Institute,No. 80, Middle Section of Huangshan Avenue, Yubei District, Chongqing,China; State Grid Chongqing Electric Power Research Institute,No. 80, Middle Section of Huangshan Avenue, Yubei District, Chongqing,China; State Grid Chongqing Electric Power Research Institute,No. 80, Middle Section of Huangshan Avenue, Yubei District, Chongqing,China; State Grid Chongqing Electric Power Research Institute,No. 80, Middle Section of Huangshan Avenue, Yubei District, Chongqing,China | CHINA | Component;Blockchain Technology;Distributed Energy Transactions;Microgrid |
Research on Architecture of Power Big Data High-Speed Storage System for Energy Interconnection.pdf | 2021 | ||||
RESEARCH ON BLOCKCHAIN APPLICATION FOR E-COMMERCE, FINANCE AND ENERGY.pdf | 2019 | ||||
Research on Blockchain-Based Interactive Operation and Transaction Service Technology of Customer-side Flexible Resources.pdf | 2021 | ||||
RESEARCH ON CONSENSUS ALGORITHM OF MULTI ENERGY INTERACTION AGENTS BASED ON PBFT.pdf | 2020 | Y. Yang; W. Yang; Z. Guo; J. Zhu | NARI Group Corporation/State Grid Electric Power Research Institute,Nanjing,China; NARI Group Corporation/State Grid Electric Power Research Institute,Nanjing,China; NARI Group Corporation/State Grid Electric Power Research Institute,Nanjing,China; NARI Group Corporation/State Grid Electric Power Research Institute,Nanjing,China | CHINA | Energy Internet;Consensus mechanism;Practical Byzantine Fault Tolerance;Blockchain |
Research on decentralized operation scheduling strategy of integrated energy system based on energy blockchain.pdf | 2021 | ||||
RESEARCH ON DISTRIBUTED ENERGY APPLICATION MECHANISM AND KEY TECHNOLOGIES BASED ON HYPERLEDGER.pdf | 2019 | ||||
RESEARCH ON ENERGY BLOCKCHAIN PLATFORM BASED ON PRIVATE KEY STORAGE ALGORITHM OF IMAGE INFORMATION HIDING.pdf | 2019 | Xia, D; Mao, H; Zhao, CW; Zhong, SY; Wang, FJ; Liu, X | Tianjin University; Nankai University China | CHINA | |
Research on Multi-Microgrids Scheduling Strategy Considering Dynamic Electricity Price Based on Blockchain.pdf | 2021 | ||||
Research on Nearby Consumption of Renewable Energy and Electric Power User Matching Method Based on Energy Blockchain Technology.pdf | 2021 | Chang, Y; Feng, K; Sun, P; Zhang, X; Jiang, JP; Zhang, YQ; Chen, Z | Inner Mongolia University of Science & Technology | MONGOLIA | energy blockchain; transaction method; matching strategy; photovoltaic consumption; comprehensive evaluation |
RESEARCH ON SECURE TRANSMISSION AND STORAGE OF ENERGY IOT INFORMATION BASED ON BLOCKCHAIN.pdf | 2020 | ||||
RESEARCH ON THE APPLICATION OF BLOCKCHAIN IN THE ENERGY POWER INDUSTRY IN CHINA.pdf | 2019 | ||||
RESEARCH ON THE APPLICATION OF BLOCKCHAIN TECHNOLOGY IN ENERGY INTERNET.pdf | 2018 | Sun, X; Chen, MH; Zhu, YP; Li, TT | china | CHINA | energy internet; blockchain; energy trading; smart contract; distributed energy industry; electric vehicle industry; carbon emission right |
RESEARCH ON THE BLOCKCHAIN-BASED INTEGRATED DEMAND RESPONSE RESOURCES TRANSACTION SCHEME.pdf | 2018 | Zhao, SN; Li, Y; Wang, BB; Su, HL | Southeast University - China; State Grid Corporation of China | CHINA | Blockchain; Decentralized market; Demand response; transaction scheme design |
Research on the strategy of adjustable load resources participating in distributed trading market.pdf | 2021 | ||||
Research on Weakly Centralized Trading Mechanism of Distributed Energy Based on Smart Contract of Blockchain.pdf | 2021 | Song J., Li Y., Hu W. | NARI Technology Co. Ltd, NARI Group Corporation (State Grid Electric Power Research Institute), Nanjing, China; Electric Power Research Institute of State Grid Hubei Electric Power Co., Ltd., Wuhan, China | CHINA | Blockchain; Distributed energy trading; Smart contract; Weakly centralized |
Research_on_Nearby_Consumption_of_Renewable_Energy_and_Electric_Power_User_Matching_Method_Based_on_Energy_Blockchain_Technology.pdf | 2021 | ||||
Residential energy trading with blockchain technology.pdf | 2021 | ||||
RESIDENTIAL PV MULTILATERAL TRADING PLATFORM BASED ON BLOCKCHAIN.pdf | 2019 | W. Xue; P. Li; J. Wang | Hunan University,College of Electrical and Information Engineering,Changsha,China; Hunan University,College of Electrical and Information Engineering,Changsha,China; Zhangjiakou Power Supply Company State Grid Jibei Electric Power Company,Zhangjiakou,China | CHINA | Blockchain;Ubiquitous power internet;photovol-taic power generation;multilateral trading platform;smart con-tract |
Review and Investigation of Merkle Tree-s Technical Principles and Related Application Fields.pdf | 2021 | ||||
REVIEW OF BLOCKCHAIN ENABLED DECENTRALIZED ENERGY TRADING MECHANISMS.pdf | 2019 | A. Salian; S. Shah; J. Shah; K. Samdani | B-Tech Computer Engineering MPSTME, NMIMS University, Mumbai; B-Tech Computer Engineering MPSTME, NMIMS University, Mumbai; B-Tech Computer Engineering MPSTME, NMIMS University, Mumbai; Computer Engineering Department MPSTME, NMIMS University India | INDIA | Blockchain;renewable energy;decentralized;trading;smart grid;microgrid |
Review_of_Blockchain-Based_Energy_Trading_Models.pdf | 2021 | Sharma P., Senapati R., Swetapadma A. | School of Electrical Engineering, Kalinga Institute of Industrial Technology, Bhubaneswar, India; School of Computer Science Engineering, Kalinga Institute of Industrial Technology | INDIA | Blockchain; Energy trading; Scalability; Smart Contract and Blockchain trilemma; Smart Grid; Smart Meter |
Review_of_Market_Clearing_Method_for_Blockchain-Based_P2P_Energy_Trading_in_Microgrid.pdf | 2021 | Kajaan N.A.M., Salam Z., Radzi R.Z.R.M. | Universiti Malaysia Perlis, Faculty of Electrical Engineering Technology, Arau, Malaysia; Universiti Teknologi Malaysia, Center of Electrical Energy System School of Electrical Engineering Faculty of Engineering, Johor Bahru, Malaysia; Universiti Teknologi Malaysia, School of Computing Faculty of Engineering, Johor Bahru, Malaysia | MALAYSIA | blockchain; energy market clearance; energy market design; microgrid; peer-To-peer energy trading |
REVIEWING THE OPPORTUNITIES, CHALLENGES, AND FUTURE DIRECTIONS FOR THE DIGITALIZATION OF ENERGY.pdf | 2021 | Baidya, S; Potdar, V; Ray, PP; Nandi, C | Tripura University; Curtin University; Sikkim University India Australia | AUSTRALIA INDIA | Blockchain; IoT; Smart grid; Smart energy; Energy monitoring |
ROBUST PROOF OF STAKE- A NEW CONSENSUS PROTOCOL FOR SUSTAINABLE BLOCKCHAIN SYSTEMS.pdf | 2020 | Li, AY; Wei, XH; He, Z | Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS; Chinese Academy of Sciences china | CHINA | distributed digital economy system; blockchain; robust; consensus protocol; agent-based model |
Robust- Resilient and Reliable Architecture for V2X Communications.pdf | 2021 | ||||
SCALABLE TRANSPORT MECHANISMS FOR BLOCKCHAIN IOT APPLICATIONS.pdf | 2019 | ||||
SEAL-BID RENEWABLE ENERGY CERTIFICATION TRADING IN POWER SYSTEM USING BLOCKCHAIN TECHNOLOGY.pdf | 2020 | Kim, J; Park, H; Lee, GH; Choi, JK; Heo, Y | Korea Advanced Institute of Science & Technology (KAIST); Hyundai Kia Motors | SOUTH KOREA | Renewable energy certification; seal-bid auction; blockchain technology; security; power system |
SEAMLESS GRID AN OFF-CHAIN MODEL PROPOSAL FOR SCALABLE P2P ELECTRICITY MARKETS AND GRIDS MANAGEMENT.pdf | 2019 | F. B. Armani; F. Grimaccia; S. Leva; M. Mussetta | Department of Energy, Politecnico di Milano, Milan, Italy; Department of Energy, Politecnico di Milano, Milan, Italy; Department of Energy, Politecnico di Milano, Milan, Italy; Department of Energy, Politecnico di Milano, Milan, Italy | ITALY | Blockchain;Distributed Energy Sources (DERs);Lightning Network (LN);Off-chain;Peer-to-Peer electricity market |
SECURE AND EFFICIENT MUTUAL AUTHENTICATION PROTOCOL FOR SMART GRID UNDER BLOCKCHAIN.pdf | 2020 | Wang W., Huang H., Zhang L., Su C. | School of Computer Science and Engineering, University of Aizu, Aizu-Wakamatsu, Fukushima, Japan; School of Artificial Intelligence, Guilin University of Electronic Technology, Guilin-City, Guangxi, China; College of Information Engineering, Yangzhou University, Jiangsu, China; Cyberspace Security Research Center, Peng Cheng Laboratory, Shenzhen, 518055, China | CHINA JAPAN | Authentication; Blockchain; Elliptic Curve Cryptography (ECC); Privacy; Security; Smart grid |
SECURE AND EFFICIENT VEHICLE-TO-GRID ENERGY TRADING IN CYBER PHYSICAL SYSTEMS INTEGRATION OF BLOCKCHAIN AND EDGE COMPUTING.pdf | 2018 | Zhou Z., Wang B., Dong M., Ota K. | State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, School of Electrical and Electronic Engineering, North China Electric Power University, Beijing, 102206, China; Department of Information and Electric Engineering, Muroran Institute of Technology, Muroran, 050-8585, Japan | CHINA JAPAN | Consortium blockchain; contract theory; cyber-physical system (CPS); edge computing; vehicle-to-grid (V2G) energy trading |
Secure and Privacy-Preserving Lightweight Blockchain for Energy Trading.pdf | 2021 | Materwala H., Ismail L. | College of Information Technology, United Arab Emirates University, Intelligent Distributed Computing and Systems Research Laboratory, Department of Computer Science and Software Engineering, Abu Dhabi, Al Ain, 15551, United Arab Emirates; National Water and Energy Center, United Arab Emirates University, Abu Dhabi, Al Ain, United Arab Emirates | UNITED ARAB EMIRATES | Blockchain; Energy trading; Peer-to-peer; Performance; Privacy; Scalability |
SECURE BLOCKCHAIN-BASED ENERGY TRANSACTION FRAMEWORK IN SMART POWER SYSTEMS.pdf | 2018 | ||||
Secure Communication in Smart Meters using Elliptic Curve Cryptography and Digital Signature Algorithm.pdf | 2021 | ||||
Secure Data Access Control With Fair Accountability in Smart Grid Data Sharing An Edge Blockchain Approach.pdf | 2021 | Yang W., Guan Z., Wu L., Du X., Guizani M. | School of Control and Computer Engineering, North China Electric Power University, Beijing, China; Department of Mathematics and Computer Science, Fayetteville State University, Fayetteville, NC, United States; Department of Computer and Information Sciences, Temple University, Philadelphia, PA, United States; Department of Computer Science and Engineering, Qatar University, Doha, Qatar | CHINA QATAR UNITED STATES | Ciphertext policy attribute-based encryption (CP-ABE); data sharing; distributed energy resources (DERs); edge blockchain (EB); fair accountability |
SECURE ELECTRICITY TRADING AND INCENTIVE CONTRACT MODEL FOR ELECTRIC VEHICLE BASED ON ENERGY BLOCKCHAIN.pdf | 2019 | X. Chen; X. Zhang | School of Information Engineering, Jiangxi University of Science and Technology, Ganzhou, China; School of Information Engineering, Jiangxi University of Science and Technology, Ganzhou, China | CHINA | Energy blockchain;electric vehicle (EV);elliptic curve encryption;game theory;incentive mechanism;security analysis |
SECURE ENERGY MARKET AGAINST CYBER ATTACKS USING BLOCKCHAIN.pdf | 2019 | V. Kamuni; U. Asfia; S. Sutavani; A. Sheikh; D. Patel | Electrical Engineering Department, Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Electrical Engineering Department, Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Electrical Engineering Department, Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Electrical Engineering Department, Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA; Veermata Jijabai Technological Institute, Mumbai, 400019, INDIA | INDIA | Attacks;Blockchain;Electric vehicles;Smart contracts;Security |
SECURE ENERGY TRADING FOR ELECTRIC VEHICLES USING CONSORTIUM BLOCKCHAIN AND K-NEAREST NEIGHBOR.pdf | 2020 | Ashfaq T., Javaid N., Javed M.U., Imran M., Haider N., Nasser N. | Comsats Institute of Information Technology, Islamabad, 44000, Pakistan; Global Big Data Technology Centre, University of Technology Sydney, Ultimo, NSW 2007, Australia; College of Computer and Information Sciences, King Saud University, Riyadh, Saudi Arabia; College of Engineering, Alfaisal University, Riyadh, Saudi Arabia | AUSTRALIA PAKISTAN SAUDI ARABIA | |
SECURE, DECENTRALIZED ENERGY RESOURCE MANAGEMENT USING THE ETHEREUM BLOCKCHAIN.pdf | 2018 | Decusatis C., Lotay K. | Marist College, Poughkeepsie, NY, United States | UNITED STATES | authentication; Blockchain; cybersecurity; energy; Ethereum; identity |
Secured and Blockchained IoT.pdf | 2021 | ||||
SECURED ENERGY TRADING USING BYZANTINE-BASED BLOCKCHAIN CONSENSUS.pdf | 2019 | A. Sheikh; V. Kamuni; A. Urooj; S. Wagh; N. Singh; D. Patel | Veermata Jijabai Technological Institute, Mumbai, India; Veermata Jijabai Technological Institute, Mumbai, India; Veermata Jijabai Technological Institute, Mumbai, India; Veermata Jijabai Technological Institute, Mumbai, India; Veermata Jijabai Technological Institute, Mumbai, India; Veermata Jijabai Technological Institute, Mumbai, India | INDIA | Blockchain;Byzantine general problem;consensus;energy trading;security |
SECURING CRITICAL INFRASTRUCTURES WITH LOCATION BASED AUTHENTICATION BLOCKCHAIN.pdf | 2019 | ||||
Securing IoT Devices using Blockchain Concept.pdf | 2021 | ||||
SECURING THE SMART GRID A BLOCKCHAIN-BASED SECURE SMART ENERGY SYSTEM.pdf | 2019 | Suciu, G; Sachian, MA; Dobrea, M; Istrate, CI; Petrache, AL; Vulpe, A; Vochin, M | Polytechnic University of Bucharest Romania | OMAN ROMANIA | blockchain; cryptocurrency; smart energy; Smart Grid; smart meter |
SECURITY AND PRIVACY IN DECENTRALIZED ENERGY TRADING THROUGH MULTI-SIGNATURES, BLOCKCHAIN AND ANONYMOUS MESSAGING STREAMS.pdf | 2018 | ||||
Security and privacy smart contract architecture for energy trading based on blockchains.pdf | 2021 | M. Nazari; S. Khorsandi; J. Babaki | Amirkabir University of Technology,Dept. Computer Engineering,Tehran,Iran; Amirkabir University of Technology,Dept. Computer Engineering,Tehran,Iran; Amirkabir University of Technology,Dept. Computer Engineering,Tehran,Iran | IRAN | Peer-to-Peer energy trading;Distributed energy resources;Blockchain;Smart contract;smart grid |
SECURITY ISSUES IN DECENTRALIZED INTERNET BLOCKCHAIN AND SECURE ENERGY TRADING.pdf | 2020 | ||||
Self-Healing Dilemmas in Distributed Systems Fault Correction vs. Fault Tolerance.pdf | 2021 | ||||
SELF-RESTRAINED ENERGY GRID WITH DATA ANALYSIS AND BLOCKCHAIN TECHNIQUES.pdf | 2020 | ||||
SHARING ELECTRICITY IN BRAZIL- A CRYPTO-CURRENCY FOR MICRO_MINI-GRID TRANSACTIVE ENERGY.pdf | 2020 | Gabrich, YB; Coelho, IM; Coelho, VN | Universidade do Estado do Rio de Janeiro Brazil | BRAZIL | blockchain; transactive energy; microgrid; mini-grid; Brazil |
SIMULATION OF BLOCKCHAIN BASED POWER TRADING WITH SOLAR POWER PREDICTION IN PROSUMER CONSORTIUM MODEL.pdf | 2020 | Thu K.S., Ongsakul W. | School of Environment Resources and Development (SERD), Asian Institute of Technology, Department of Energy, Environment and Climate Change, Bangkok, Thailand | THAILAND | Artificial intelligence; blockchain; energy trading; MLFF; prosumer consortium; solar prediction |
Smart Blockchain-based Control-data Protection Framework for Trustworthy Smart Grid Operations.pdf | 2021 | Samy S., Banawan K., Azab M., Rizk M. | Faculty of Engineering, Alexandria University, Electrical Engineering Department, Alexandria, Egypt; Virginia Military Institute, Department of Computer and Information Sciences, Lexington, VA, United States | EGYPT UNITED STATES | blockchain; false data injection; machine learning; smart grid |
SMART CONTRACT ARCHITECTURE FOR DECENTRALIZED ENERGY TRADING AND MANAGEMENT BASED ON BLOCKCHAINS.pdf | 2020 | ||||
SMART CONTRACT FOR DISTRIBUTED ENERGY TRADING IN VIRTUAL POWER PLANTS BASED ON BLOCKCHAIN.pdf | 2020 | Lu, J; Wu, SH; Cheng, HL; Xiang, ZY | china | CHINA | blockchain; distributed energy resource; energy trading; smart contract; virtual power plant |
Smart contract formation enabling energy-as-a-service in a virtual power plant.pdf | 2021 | ||||
SMART ENERGY GRIDS USED IN IRRIGATION SYSTEMS USING THE BLOCKCHAIN APPLICATIONS.pdf | 2019 | F. M. Enescu; N. Bizon; C. Stirbu | Communications and Computers University of Pitesti,Dept. Electronics,Piteşti,România; Communications and Computers University of Pitesti,Dept. Romania Electronics,Piteşti,România; Communications and Computers University of Pitesti,Dept. Electronics,Piteşti,România | OMAN ROMANIA | agriculture;association;citect SCADA;irrigation system;photovoltaic panels;photovoltaic park;HMI SCAD;energy balance;microgrid |
SMART GRID MANAGEMENT USING BLOCKCHAIN- FUTURE SCENARIOS AND CHALLENGES.pdf | 2020 | T. Cioara; C. Pop; R. Zanc; I. Anghel; M. Antal; I. Salomie | Technical University of Cluj-Napoca,Computer Science Department Faculty of Automation and Computer Science,Cluj-Napoca,Romania; Technical University of Cluj-Napoca,Computer Science Department Faculty of Automation and Computer Science,Cluj-Napoca,Romania; Global Business Services IBM Romania,Cluj-Napoca,Romania; Technical University of Cluj-Napoca,Computer Science Department Faculty of Automation and Computer Science,Cluj-Napoca,Romania; Technical University of Cluj-Napoca,Computer Science Department Faculty of Automation and Computer Science,Cluj-Napoca,Romania; Technical University of Cluj-Napoca,Computer Science Department Faculty of Automation and Computer Science,Cluj-Napoca,Romania | OMAN ROMANIA | Smart Grid;Blockchain;Peer to Peer Energy Trading;Decentralized Flexibility Aggregation;Virtual Power Plants;Demand Response |
SMART GRID OPTIMIZATION WITH BLOCKCHAIN BASED DECENTRALIZED GENETIC ALGORITHM.pdf | 2020 | Mureddu, M; Ghiani, E; Pilo, F | University of Cagliari Italy | ITALY | Decentralized Machine Learning; Genetic Algorithms; Smart Grid Optimization; Internet of Things; Blockchain |
Smart Grid Power Theft and Fault Detection using IoT and Blockchain.pdf | 2021 | ||||
SMART GRID TO ENERGY INTERNET A SYSTEMATIC REVIEW OF TRANSITIONING ELECTRICITY SYSTEMS.pdf | 2020 | A. Joseph; P. Balachandra | Experimental Power Grid Centre, Energy Research Institute @ NTU, Nanyang Technological University, Singapore; Department of Management Studies, Indian Institute of Science, Bengaluru, India | INDIA SINGAPORE | Blockchain;energy Internet;energy transition;peer-to-peer energy trading;smart grid |
Smart Hub Electric Energy Data Aggregation Platform for Prosumers Grid Integration.pdf | 2021 | Mihaela C., Mircea C., Daniel D. | EnergoBit, Cluj-Napoca, Romania; Universitatea Tehnica Cluj-Napoca, Cluj-Napoca, Romania; EnergoBit Control Systems, Cluj-Napoca, Romania | OMAN ROMANIA | Aggregator; Blockchain; Demand Response; Demand Side Management; Generation Side Management; Internet of Things; Virtual Power Plant |
Social and Economic Contribution of 5G and Blockchain With Green Computing Taxonomy- Challenges- and Opportunities.pdf | 2021 | ||||
SOCIAL WELFARE MAXIMIZATION AUCTION IN EDGE COMPUTING RESOURCE ALLOCATION FOR MOBILE BLOCKCHAIN.pdf | 2018 | Jiao Y., Wang P., Niyato D., Xiong Z. | School of Computer Science and Engineering, Nanyang Technological University, Singapore, 639798, Singapore | SINGAPORE | Auction; Edge computing; Mobile blockchain; Pricing; Proof of work; Resources allocation |
Solar Prosumers in the German Energy Transition A Multi-Level Perspective Analysis of the German 'Mieterstrom' Model.pdf | 2021 | Moser, R; Xia-Bauer, C; Thema, J; Vondung, F | Germany | GERMANY | urban energy transition; decentralized electricity generation; multi-level perspective; photovoltaics; Germany |
SPB A SECURE PRIVATE BLOCKCHAIN-BASED SOLUTION FOR DISTRIBUTED ENERGY TRADING.pdf | 2019 | Dorri A., Luo F., Kanhere S.S., Jurdak R., Dong Z.Y. | UNSW Sydney, Australia; University of Sydney, Australia; CSIRO, Australia | AUSTRALIA | |
SPDS A Secure and Auditable Private Data Sharing Scheme for Smart Grid Based on Blockchain.pdf | 2021 | Wang, YT; Su, Z; Zhang, N; Chen, JF; Sun, X; Ye, ZY; Zhou, ZY | Xi'an Jiaotong University; Shanghai University; University of Windsor; State Grid Corporation of China; North China Electric Power University | CHINA | Blockchain; Smart contracts; Smart grids; Distributed databases; Cryptography; Companies; Data privacy; Blockchain; off-chain; private data sharing; smart contract; smart grid; trusted computing |
Standardization of the Distributed Ledger Technology cybersecurity.pdf | 2021 | Gourisetti, SNG; Cali, U; Choo, KKR; Escobar, E; Gorog, C; Lee, AN; Lima, C; Mylrea, M; Pasetti, M; Rahimi, F; Reddi, R; Sani, AS | United States Department of Energy (DOE); Pacific Northwest National Laboratory; Norwegian University of Science & Technology (NTNU); University of Texas System; University of Texas at San Antonio (UTSA); Duke University; University of Brescia; University of Greenwich | UNITED STATES | Distributed Ledger Technology (DLT); Blockchain; Power systems; Distributed energy resource (DER); Cybersecurity; Smart grid |
Stratified-control-applied-to-a-threephase-unbalanced-low-voltage-distribution-grid-in-a-local-peertopeer-energy-communityEnergies.pdf | 2021 | Rao, BV; Stefan, M; Schwalbe, R; Karl, R; Kupzog, F; Kozek, M | Austrian Institute of Technology (AIT); Technische Universitat Wien | AUSTRIA | local energy communities; Blockchain; stratified control; optimal power flows; holomorphic embedding load flow method; model predictive control; smart grids |
Study of the influence of dust deposits on photovoltaic solar panels Case of Nouakchott.pdf | 2021 | ||||
Survey on blockchain for future smart grids Technical aspects, applications, integration challenges and future research.pdf | 2021 | Yapa, C; de Alwis, C; Liyanage, M; Ekanayake, J | University Sri Jayewardenepura; University College Dublin; University of Oulu; University of Peradeniya; Cardiff University Finland Sri Lanka United Kingdom Ireland | FINLAND IRELAND SRI LANKA UNITED KINGDOM | Smart Grid 2.0; Distribute Energy Resources; Blockchains; Integration challenges; Security; Scalability; De-centralization |
Survey on Blockchain-Based Smart Contracts Technical Aspects and Future Research.pdf | 2021 | ||||
SURVIVOR A BLOCKCHAIN BASED EDGE-AS-A-SERVICE FRAMEWORK FOR SECURE ENERGY TRADING IN SDN-ENABLED VEHICLE-TO-GRID ENVIRONMENT.pdf | 2019 | Jindal A., Aujla G.S., Kumar N. | School of Computing & Communications, Lancaster University, Lancaster, United Kingdom; Computer Science & Engineering Department, Chandigarh University, Mohali, India; Computer Science & Engineering Department, Thapar Institute of Engineering and Technology (Deemed to be University), Patiala, India | INDIA UNITED KINGDOM | Blockchain; Edge-as-a-service; Energy trading; Smart city; Software defined networking |
Sustainable microgrid design considering blockchain technology for real-time price-based demand response programs.pdf | 2021 | Tsao, YC; Thanh, VV; Wu, QW | National Taiwan University of Science & Technology; Technical University of Denmark | DENMARK TAIWAN | Sustainability; Microgrid; Blockchain technology; Demand response; Robust multi-objective optimization; Fuzzy programming |
SYNCHRONIZATION GAMES IN P2P ENERGY TRADING.pdf | 2018 | Saukh O., Papst F., Saukh S. | Institute of Technical Informatics, TU Graz, CSH Vienna, Austria; Pukhov Institute of Modelling Problems in Power Engineering, Ukraine | AUSTRIA UKRAINE | |
SynergyChain Blockchain-Assisted Adaptive Cyber-Physical P2P Energy Trading.pdf | 2021 | Ali, FS; Bouachir, O; Ozkasap, O; Aloqaily, M | Koc University; Zayed University United Arab Emirate Turkey | TURKEY | Blockchain; Smart meters; Smart grids; Energy management; Smart contracts; Microgrids; Scalability; Blockchain; distributed energy resources; peer-to-peer (P2P) energy trading; prosumers; self-adaptive grouping |
SYSTEM ARCHITECTURE FOR HIGH-PERFORMANCE PERMISSIONED BLOCKCHAINS.pdf | 2018 | Libo FENG1,3, Hui ZHANG 1,2,3, Wei-Tek TSAI1,3,4, Simeng SUN1 | State Key Laboratory of Software Development Environment, Beihang University, Beijing 100191, China 2 Beijing Advanced Innovation Center for Big Data and Brain Computing, Beihang University, Beijing 100191, China 3 Digital Society & Blockchain Laboratory, School of Computer Science, Beihang University, Beijing 100191, China 4 School of Computing, Informatics and Decision Systems Engineering, Arizona State University, Tempe, USA | China UNITED STATES | blockchain, concurrency, performance, dualchannel model, parallel pipeline, consensus algorithm |
Systematic design of blockchain based testbed for Peer - To- Peer energy trading.pdf | 2021 | A. Bajpai; J. Schindler; R. Baun | Fortiss GmbH Munich,Germany; Framatome GmbH Erlangen,Germany; Fortiss GmbH Munich,Germany | GERMANY | blockchain;peer-to-peer;smart-grid;microgrids;prosumer;energy management systems;system architectures |
THE BLOCKCHAIN CONSENSUS ALGORITHM FOR VIABLE MANAGEMENT OF NEW AND RENEWABLE ENERGIES.pdf | 2019 | Huh, JH; Kim, SK | Catholic University Pusan; Sungkyunkwan University (SKKU) Korea | SOUTH KOREA | blockchain; whitechain; authentication; BoT; M2M; renewable energy; smart grid; computer architecture; software; Java Android; Java JSON; Gob |
THE BLOCKCHAIN IN MICROGRIDS FOR TRANSACTING ENERGY AND ATTRIBUTING LOSSES.pdf | 2017 | ||||
The Blockchain Solution for the Security of Internet of Energy and Electric Vehicle Interface.pdf | 2021 | R. Saha; G. Kumar; G. Geetha; Tai-Hoon-Kim; M. Alazab; R. Thomas; M. K. Rai; J. J. P. C. Rodrigues | School of Computer Science and Engineering, Lovely Professional University, Phagwara, Punjab, India; School of Computer Science and Engineering, Lovely Professional University, Phagwara, Punjab, India; School of Computer Science and Engineering, Lovely Professional University, Phagwara, Punjab, India; Beijing Jiaotong University, Beijing, China; College of Engineering, IT and Environment, Charles Darwin Univeristy, Casuarina, Northern Territory, Australia; Divison of Research and Development, Lovely Professional University, Phagwara, Punjab, India; Department of Electronics and Electrical Engineering, Lovely Professional University, Phagwara, Punjab, India; Federal University of Piauí, Teresina - PI, Brazil | AUSTRALIA BRAZIL CHINA INDIA | Energy;IoE;IoT;security;blockchain;lattice |
THE COMBINATION OF IOT-SENSORS IN APPLIANCES AND BLOCK-CHAIN TECHNOLOGY IN SMART CITIES ENERGY SOLUTIONS.pdf | 2020 | ||||
THE DEVELOPMENT OF ENERGY BLOCKCHAIN AND ITS IMPLICATIONS FOR CHINA'S ENERGY SECTOR.pdf | 2020 | Zhu, S; Song, ML; Lim, MK; Wang, JL; Zhao, JJ | Anhui University of Finance & Economics; Coventry University; Dongbei University of Finance & Economics; Dongbei University of Finance & Economics China United Kingdom | CHINA UNITED KINGDOM | Energy blockchain; Distributed energy; Energy production; Regulation policy |
THE DISRUPTIVE POTENTIAL OF BLOCKCHAIN TECHNOLOGIES IN THE ENERGY SECTOR.pdf | 2019 | Marchi B., Ferretti I., Pasetti M., Zanoni S., Zavanella L.E. | Department of Mechanical and Industrial Engineering, Università degli Studi di Brescia, via Branze 38, Brescia, 25123, Italy; Department of Information Engineering, Università degli Studi di Brescia, via Branze 38, Brescia, 25123, Italy | ITALY | Blockchain; Demand side management (DSM); Prosumers |
THE ENABLING IMPACT OF DIGITAL TECHNOLOGIES ON DISTRIBUTED ENERGY RESOURCES INTEGRATION.pdf | 2020 | Banales, S | Qatar | QATAR | |
THE GREEN BLOCKCHAIN MANAGING DECENTRALIZED ENERGY PRODUCTION AND CONSUMPTION.pdf | 2017 | Imbault F., Swiatek M., De Beaufort R., Plana R. | Evolution Energie, 8 Passage Brulon, Paris, France; GE Grid Solutions, Paris, France; GE Digital, Paris, France | FRANCE | Blockchain; Decentralised energy systems; Green certificates; Microgrid |
THE IMPACT OF INNOVATIVE TECHNOLOGIES ON CONSUMERS IN THE POWER SUPPLY MARKET.pdf | 2019 | Karuseva N., Livshits S., Kotsubinski A., Yudina N., Novikova O., Tabakova A. | Kazan State Power-Engineering University, Kazan, Russian Federation; Peter the Great St. Petersburg Polytechnic University, Saint Petersburg, Russian Federation | RUSSIA | |
THE FIFTH ARCHETYPE OF ELECTRICITY MARKET THE BLOCKCHAIN MARKETPLACE.pdf | 2021 | Xu Y., Ahokangas P., Yrjölä S., Koivumäki T. | Martti Ahtisaari Institute, OBS, University of Oulu, Pentti Kaiteran katu 1, P.O. Box 4600, Oulu, 90014, Finland; Nokia, Kaapelitie 4, Oulu, 90620, Finland | FINLAND | Blockchain; Business model; Electricity market; Energy market; Smart grid |
THE OPEN BLOCKCHAIN-AIDED MULTI-AGENT SYMBIOTIC CYBER–PHYSICAL SYSTEMS.pdf | 2019 | Skowroński R. | Poznan University of Technology, Poland | POLAND | |
The Planning Design of Cloud Energy Storage System for Vehicle-Grid by Blockchain.pdf | 2021 | J. -F. Li; D. -H. Zhang; X. Lu; J. Sheng | Guangdong Power Grid Corporation, CSG,Grid Planning & Research Center,Guangzhou,China; Tsinghua University,Sichuan Energy Internet Research Institute,Department of System Analysis and Hybrid Simulation,Chengdu,China; Guangdong Power Grid Corporation, CSG,Strategic Planning Department,Guangzhou,China; Tsinghua University,Sichuan Energy Internet Research Institute,Department of System Analysis and Hybrid Simulation,Chengdu,China | CHINA | cloud energy storage system (CES);vehicle-to-grid (V2G);blockchain;planning design;power system |
THE SMART WORLD REVOLUTION.pdf | 2018 | ||||
THE STAKECUBE BLOCKCHAIN - INSTANTIATION, EVALUATION & APPLICATIONS.pdf | 2020 | Durand A., Hebert G., Toumi K., Memmi G., Anceaume E. | Institut Polytechnique de Paris, IRT-SystemX, France; Atos; IRT-SystemX; Institut Polytechnique de Paris, LTCI, Telecom Paris, France; CNRS, IRISA | FRANCE | application; benchmarking; blockchain; Proof-of-Stake; scalability; sharding; smart grid |
Toward blockchain-based renewable energy microgrid design considering default risk and demand uncertainty.pdf | 2020 | Tsao, YC; Thanh, VV | National Taiwan University of Science & Technology; National Taiwan University of Science & Technology | TAIWAN | Renewable energy; Blockchain; Bank credit; Default risk; Robust optimization; Type-2 fuzzy |
Toward sustainable microgrids with blockchain technology-based peer-to-peer energy trading mechanism A fuzzy meta-heuristic approach.pdf | 2021 | Tsao, YC; Thanh, VV | National Taiwan University of Science & Technology | TAIWAN | Sustainability; Microgrid; Blockchain; Peer-to-peer trading; Fuzzy multi-objective; Genetic algorithm |
Towards a Green Blockchain A Review of Consensus Mechanisms and their Energy Consumption.pdf | 2021 | ||||
TOWARDS A SEMANTIC MODELLING FOR THREAT ANALYSIS OF IOT APPLICATIONS A CASE STUDY ON TRANSACTIVE ENERGY.pdf | 2019 | Fadhel N., Lombardi F., Aniello L., Margheri A., Sassone V. | University of Southampton, United Kingdom | UNITED KINGDOM | Blockchain; IoT security; Smart contract; Smart meter; Transactive energy |
TOWARDS BLOCKCHAIN-BASED ELECTRICITY TRADING SYSTEM AND CYBER RESILIENT MICROGRIDS.pdf | 2019 | ||||
Towards Blockchain-Based Internet of Things Systems for Energy Smart Contracts With Constrained Hardware Devices and Cloud Infrastructure.pdf | 2021 | P. M. Royo; J. Rodríguez-Molina; J. Garbajosa; P. Castillejo | Department of Telematics and Electronics Engineering, Universidad Politécnica de Madrid, Madrid, Spain; Department of Telematics and Electronics Engineering, Universidad Politécnica de Madrid, Madrid, Spain; Higher Technical School of Engineering of Information Systems, Universidad Politécnica de Madrid, Madrid, Spain; Department of Telematics and Electronics Engineering, Universidad Politécnica de Madrid, Madrid, Spain | SPAIN | Blockchain;smart contract;energy;Internet of Things |
Towards Context-Aware Smart Contracts for Blockchain IoT Systems.pdf | 2021 | Ngwira L., Merlec M.M., Lee Y.K., In H.P. | Korea University, Dept. of Computer Science and Engineering, Seoul, South Korea; Hongik University, Dept. of Computer Engineering, Seoul, South Korea | SOUTH KOREA | Blockchain; context-aware system; internet of things (IoT); smart contract; smart grid home area network |
TOWARDS REALISTIC ENERGY PROFILING OF BLOCKCHAINS FOR SECURING INTERNET OF THINGS.pdf | 2018 | ||||
TOWARDS RESILIENT NETWORKED MICROGRIDS BLOCKCHAIN-ENABLED PEER-TO-PEER ELECTRICITY TRADING MECHANISM.pdf | 2017 | Sabounchi, M; Wei, J | University of Akron United States | UNITED STATES | Blockchain; P2P Electricity Market; Contract Theory; Coalition Game; Smart Contract; Distributed Generation |
TOWARDS SECURE AND EFFICIENT ENERGY TRADING IN IIOT-ENABLED ENERGY INTERNET A BLOCKCHAIN APPROACH.pdf | 2019 | Guan Z., Lu X., Wang N., Wu J., Du X., Guizani M. | School of Control and Computer Engineering, North China Electric Power University, Beijing, China; School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai, China; Department of Computer and Information Science, Temple UniversityPhiladelphia PA, United States; Department of Computer Science and Engineering, Qatar University, Doha, Qatar | CHINA QATAR UNITED STATES | Blockchain; Distributed energy trading; Energy internet; Industrial Internet of Things; Privacy protection |
TOWARDS THE DECENTRALIZED REVOLUTION IN ENERGY SYSTEMS USING BLOCKCHAIN TECHNOLOGY.pdf | 2019 | Cali U., Fifield A. | Engineering Technology and Construction Management, University of North Carolina at Charlotte, 9201 University City Blvd, Charlotte, 28223, United States | UNITED STATES | Blockchain technology; Microgrids; Multi-layer energy model architecture; Peer-to-peer energy trading |
TOWARDS THE USE OF BLOCKCHAIN PREDICTION MARKETS FOR FORECASTING WIND POWER.pdf | 2020 | Shamsi, M; Cuffe, P | University College Dublin Ireland | IRELAND | |
Tracing battery usage for second life market with a blockchain-based framework.pdf | 2021 | A. Augello1, P. Gallo1,2, E. Riva Sanseverino1, G. Sciabica1, and G. Sciumè1 | 1 Department of Engineering University of Palermo 2 CNIT | ITALY | Blockchain, Electric Vehicles, second life smart contract |
Trading-platform-for-cooperation-and-sharing-based-on-blockchain-within-multiagent-energy-internetGlobal-Energy-Interconnection.pdf | 2021 | Wang X., Liu P., Ji Z. | China Electric Power Research Institute, Beijing, 100192, China | CHINA | Blockchain; Distributed energy resource; Electricity transaction; Energy internet; Multi-agent cooperation and sharing |
TRAIN GLOBAL, TEST LOCAL PRIVACY-PRESERVING LEARNING OF COST-EFFECTIVENESS IN DECENTRALIZED SYSTEMS.pdf | 2018 | Jovan Nikolic, Marcel Sch ´ oengens and Evangelos Pournaras | Professorship of Computational Social Science, ETH Zurich, Zurich, Switzerland , Swiss National Supercomputing Centre, Zurich, Switzerland | SWITZERLAND | |
TRANSACTION DECISION MAKING FOR INTELLIGENT DISTRIBUTED UNITS BASED ON BLOCKCHAIN AS A SERVICE (BAAS).pdf | 2018 | Xiao X., Duan B., Lai J., Li T. | College of Information Engineering, Xiangtan University, Xiangtan, 411100, China; Collaborative Innovation Center of Wind Power Equipment and Energy Conversion, Xiangtan, 411100, China | CHINA | BaaS; DS evidence theory; Intelligent distributed unit; Microgrid transaction market |
Transaction-based Static Indexing Method to Improve the Efficiency of Query on the Blockchain.pdf | 2021 | Lei Zeng, Weiwei Qiu, Xiaoyi Wang, Hongkai Wang, Yiyang Yao, Zhi Yu | Dept. of Govt. & Enterprise Business Hangzhou Qulian Technology Co., Ltd. Hangzhou, China, Research and Development Center, Hangzhou Qulian Technology Co., Ltd. Hangzhou, China, DataMesh Labs Hangzhou Qulian Technology Co.,Ltd. Hangzhou, China,State Grid Zhejiang Electric Power Corporation Information & Telecommunication Branch Hangzhou, China, School of Software Technology, Zhejiang University Hangzhou, China | CHINA | blockchain, green energy trading, static indexing |
TRANSACTIVE ENERGY MANAGEMENT WITH BLOCKCHAIN SMART CONTRACTS FOR P2P MULTI-SETTLEMENT MARKETS.pdf | 2019 | Nakayama, K; Moslemi, R; Sharma, R | NEC Corporation united states | UNITED STATES | Blockchain; Smart Contract; Transactive Energy; Multi-Settlement Market; Peer-To-Peer Transactions; Distributed Energy Resources |
TRANSACTIVE ENERGY ON HYPERLEDGER FABRIC.pdf | 2019 | Karandikar N., Chakravorty A., Rong C. | University of Stavanger, IDE, Stavanger, Norway | NORWAY | blockchain; decentralized; Hyperledger Fabric; microgrids; prosumers; smart grids |
TRANSACTIVE ENERGY SOLUTION IN A PORT'S MICROGRID BASED ON BLOCKCHAIN TECHNOLOGY.pdf | 2020 | Kermani, M; Parise, G; Shirdare, E; Martirano, L | Sapienza University Rome Italy | ITALY | Blockchain; Interconnected Microgrids; Transactive Energy; Smart Grid |
TRANSAX A BLOCKCHAIN-BASED DECENTRALIZED FORWARD-TRADING ENERGY EXCHANGED FOR TRANSACTIVE MICROGRIDS.pdf | 2018 | Laszka A., Eisele S., Dubey A., Karsai G., Kvaternik K. | Computer Science, University of Houston, Houston, TX, United States; Institute for Software Integrated Systems, Vanderbilt University, Nashville, TN, United States; Siemens Corporate Technology, Princeton, NJ, United States | UNITED STATES | blockchain; cyber-physical system; decentralized application; distributed ledger; smart contract; smart grid; system resilience; transactive energy |
TRUST MENDS BLOCKCHAINS LIVING UP TO EXPECTATIONS.pdf | 2019 | Leila Bahri, Sarunas Girdzijauskas | Royal Institute of Technology (KTH) Stockholm, Sweden | SWEDEN | Blockchain, Proof of Work, Bitcoin, Distributed Ledger, PoW is expensive, Proof of Trust, PoW alternative |
TRUSTED TRANSACTIONS IN MICRO-GRID BASED ON BLOCKCHAIN.pdf | 2019 | Yu, YJ; Guo, YH; Min, WD; Zeng, FP | Nanchang University; Nanchang University china | CHINA | microgrid; hierarchical; multi-agent; bidding; blockchain |
TRUST-ENHANCED CONTENT DELIVERY IN BLOCKCHAIN-BASED INFORMATION-CENTRIC NETWORKING.pdf | 2019 | Li H., Wang K., Miyazaki T., Xu C., Guo S., Sun Y. | Nanjing Univ. of P. and Telecom. and Jiangsu Eng. Research Center of HPC and Intelligent Processing, China; Nanjing University of Posts and Telecommunications, China; University of California Los Angeles, United States; University of Aizu, Japan; Hong Kong Polytechnic University, Hong Kong | CHINA HONG KONG JAPAN UNITED STATES | |
TWO NOVEL BLOCKCHAIN-BASED MARKET SETTLEMENT MECHANISMS EMBEDDED INTO SMART CONTRACTS FOR SECURELY TRADING RENEWABLE ENERGY.pdf | 2020 | S. -V. Oprea; A. Bâra; A. I. Andreescu | Department of Economic Informatics and Cybernetics, Bucharest University of Economic Studies, Bucharest, Romania; Department of Economic Informatics and Cybernetics, Bucharest University of Economic Studies, Bucharest, Romania; Department of Economic Informatics and Cybernetics, Bucharest University of Economic Studies, Bucharest, Romania | OMAN ROMANIA | Market settlement;blockchain;local trading;peer-to-peer;auction;smart contract |
Unification of Edge Energy Grids for Empowering Small Energy Producers.pdf | 2021 | Markakis, EK; Nikoloudakis, Y; Lapidaki, K; Fiorentzis, K; Karapidakis, E | Hellenic Mediterranean University Greece | GREECE | energy grids; energy producers; cold spinning reserve; DLT; brokerage; SMEs; energy optimisation |
User Identity Verification Strategy of Virtual Power Plant Node Based on Improved Zero-knowledge Technology.pdf | 2021 | Bo Wang, Xuedong Jiang, Liqin Shi, Zhixiong Zhang, Yong Yan, Qingmin Lyu | Power Dispatching Control Center State Grid Ningbo Power Supply Company Ningbo, China Electrical Engineering Zhejiang University/Zheda Power Science & Technology (Hangzhou) Co., Ltd Hangzhou, China | CHINA | Zero-Knowledge Proof, Virtual Power Plant, New Energy, Identity Verification, Distributed |
USING BLOCKCHAINS TO SECURE DISTRIBUTED ENERGY EXCHANGE.pdf | 2018 | Khaled Shuaib1, Juhar Ahmed Abdella1, Farag Sallabi1 and Mohammed Abdel-Hafez2 | This research is supported by the United Arab Emirates University (UAEU) research grant number 31T060. 1 College of Information Technology, The United Arab Emirates University, P.O Box 15551, Al Ain, UAE (Corresponding Author Email: k.shuaib@uaeu.ac.ae). 2 Department of Electrical Engineering, College of Engineering, The United Arab Emirates University, P.O Box 15551, Al Ain, U | UNITED ARAB EMIRATES | |
USING SERIOUS GAMING TO DISCOVER AND UNDERSTAND DISTRIBUTED LEDGER TECHNOLOGY IN DISTRIBUTED ENERGY SYSTEMS.pdf | 2019 | Jan Veeningen, Nick Szirbik | University of Groningen, Groningen, The Netherlands | NETHELANDS | Serious games, blockchain, renewable energy |
UTILITY BLOCKCHAIN FOR TRANSPARENT DISASTER RECOVERY.pdf | 2018 | Mehmet Demir, Atefeh (Atty) Mashatan, Ozgur Turetken, Alexander Ferworn | Department of Computer Science Ryerson University Toronto, Canada | CANADA | blockchain, distributed ledger, utility, energy, disaster relief, service restoration |
VIABILITY ANALYSIS OF A DECENTRALIZED ENERGY MARKET BASED ON BLOCKCHAIN.pdf | 2018 | Foti, M; Greasidis, D; Vavalis, M | University of Thessaly Greece | GREECE | blockchain; distributed ledger technology; smart grid; double auction; energy market |
Voting-Based Decentralized Consensus Design for Improving the Efficiency and Security of Consortium Blockchain.pdf | 2021 | Gang Sun , Miao Dai, , Jian Sun, Hongfang Yu | Key Laboratory of Optical Fiber Sensing and Communications (Ministry of Education) and the Agile and Intelligent Computing Key Laboratory of Sichuan Province, University of Electronic Science and Technology of China | CHINA | Consensus algorithm, consortium blockchain, deposit, reputation, verifiable random function (VRF), voting |
WHEN BLOCKCHAIN MEETS INTERNET OF THINGS CHARACTERISTICS, CHALLENGES, AND BUSINESS OPPORTUNITIES.pdf | 2019 | Viriyasitavat, W; Anuphaptrirong, T; Hoonsopon, D | Chulalongkorn University; Chulalongkorn University Thailand | THAILAND | Internet of Things; Blockchain; Smart contract; Consensus; Businesses; Business processes; Architecture; Survey |
WHEN BLOCKCHAIN MEETS SMART GRID- SECURE ENERGY TRADING IN DEMAND RESPONSE MANAGEMENT.pdf | 2020 | Kumari A., Gupta R., Tanwar S., Tyagi S., Kumar N. | Nirma University, India; Thapar Institute of Engineering and Technology, India; Department of Computer Science and Information Engineering, Asia University, Taiwan; King Abdul Aziz University, Jeddah, Saudi Arabia | INDIA SAUDI ARABIA TAIWAN | |
When energy meets blockchain A systematic exposition of policies, research hotspots, applications, and prospects.pdf | 2021 | Dao-Shun Zha1 | Tian-Tian Feng1,2,3 | Xiao-Lei Gong4 | Shu-Yue Liu5 | 1School of Economics and Management, China University of Geosciences, Beijing, China 2Key Laboratory of Carrying Capacity Assessment for Resource and Environment, Ministry of Land and Resources, Beijing, China 3Key Laboratory of Strategic Studies, Ministry of Land and Resources, Beijing, China 4School of Architecture, Tianjin University, Tianjin, China 5School of Foreign Languages, Beijing University of Aeronautics and Astronautics, Beijing, China | CHINA | application, bibliometric analysis, blockchain, energy, scientific cartography |
WHEN ENERGY TRADING MEETS BLOCKCHAIN IN ELECTRICAL POWER SYSTEM THE STATE OF THE ART.pdf | 2019 | Naiyu Wang 1, Xiao Zhou 1, Xin Lu 1, Zhitao Guan 1,*, Longfei Wu 2 and Xiaojiang Du 3 and Mohsen Guizani 4 | 1 School of Control and Computer Engineering, North China Electric Power University, Beijing 102206, China; shininess_y@163.com (N.W.); 18811525086@163.com (X.Z.); 13051320793@163.com (X.L.) 2 Department of Mathematics and Computer Science, Fayetteville State University, Fayetteville, NC 28301, USA; lwu@uncfsu.edu 3 Department of Computer and Information Science, Temple University, Philadelphia, PA 19122, USA; dxj@ieee.org 4 Department of Computer Science and Engineering, Qatar University, Doha 2713, Qatar; mguizani@ieee.org | CHINA UNITED STATES QATAR | energy trading; blockchain; electrical power system |
White-Gum-Valley-Project-Report.pdf | 2018 | Mr Matthew Bowen Mr Ian Hazzard Mr John Kettle Mr Ren Nieman Mr Moiz Syed | Curten university Australian Renewable Energy Agency (ARENA) | AUSTRIA |