The decentralized and tamper-proof features of blockchain technology can solve the problems of low compatibility, poor flexibility, and single point of failure in the traditional Industrial Internet of Things (IIoT). However, the transparency of the blockchain ledger makes the privacy disclosure of users a huge security risk. Given the privacy leakage problem exposed in the existing energy trading scheme based on the blockchain, this paper creatively proposes a privacy protection scheme for IIoT energy trading based on an identity-based signature (IBS) and homomorphic encryption. On the premise of satisfying the transaction traceability and verifiability, this scheme uses IBS technology to provide an anonymous mechanism for energy trading n...
Blockchain technology is currently being adopted in several domains and applications, including the ...
In this paper, we propose a decentralized, privacy-friendly energy trading platform (PFET) based on ...
Demand response consists in the modification of energy consumption by end users to attain specific e...
With the development of information and communication technologies in smart grid, peer-to-peer (P2P)...
Blockchain technology provides the possibility for the realization of decentralized energy trading. ...
Distributed transaction model has gradually replaced the traditional centralized transaction model a...
The high penetration of renewable energy resources into the distributed system and their intermitten...
Local energy trading has attracted the attention of many researchers as a result of its promising be...
Energy trading in Industrial Internet of Things (IIoT), a fundamental approach to realize Industry 4...
Nowadays, with the rapid development and wide application of Internet of Things technology, Industri...
Blockchain-based peer-to-peer (P2P) energy trading is one of the most viable solutions to incentiviz...
Consumers in electricity markets are becoming more proactive because of the rapid development of dem...
In industrial Internet of things (IIoT), peer-to-peer (P2P) energy trading ubiquitously takes place ...
With the continuous development of the Internet of Energy, the access of a large number of distribut...
Recently, the development of distributed renewable energy resources, smart devices, and smart grids ...
Blockchain technology is currently being adopted in several domains and applications, including the ...
In this paper, we propose a decentralized, privacy-friendly energy trading platform (PFET) based on ...
Demand response consists in the modification of energy consumption by end users to attain specific e...
With the development of information and communication technologies in smart grid, peer-to-peer (P2P)...
Blockchain technology provides the possibility for the realization of decentralized energy trading. ...
Distributed transaction model has gradually replaced the traditional centralized transaction model a...
The high penetration of renewable energy resources into the distributed system and their intermitten...
Local energy trading has attracted the attention of many researchers as a result of its promising be...
Energy trading in Industrial Internet of Things (IIoT), a fundamental approach to realize Industry 4...
Nowadays, with the rapid development and wide application of Internet of Things technology, Industri...
Blockchain-based peer-to-peer (P2P) energy trading is one of the most viable solutions to incentiviz...
Consumers in electricity markets are becoming more proactive because of the rapid development of dem...
In industrial Internet of things (IIoT), peer-to-peer (P2P) energy trading ubiquitously takes place ...
With the continuous development of the Internet of Energy, the access of a large number of distribut...
Recently, the development of distributed renewable energy resources, smart devices, and smart grids ...
Blockchain technology is currently being adopted in several domains and applications, including the ...
In this paper, we propose a decentralized, privacy-friendly energy trading platform (PFET) based on ...
Demand response consists in the modification of energy consumption by end users to attain specific e...