Journal ArticleDOI
Cooperative and Distributed Computation Offloading for Blockchain-Empowered Industrial Internet of Things
Wuhui Chen,Zhen Zhang,Zicong Hong,Chuan Chen,Jiajing Wu,Sabita Maharjan,Zibin Zheng,Yan Zhang +7 more
TLDR
This paper proposes a multihop cooperative and distributed computation offloading algorithm that considers the data processing tasks and the mining tasks together for blockchain-empowered IIoT and designs an efficient distributed algorithm based on exchanging messages betweenIIoT devices to achieve the NE with low computational complexity.Abstract:
Offloading computation-intensive blockchain mining tasks to the edge servers (ESs) is a promising solution for blockchain-empowered Industrial Internet of Things (IIoT) because the computing capabilities in IIoT are usually limited, whereas the blockchain mining tasks are computationally intensive. However, the computation offloading solutions for data processing tasks and for blockchain mining tasks have been studied separately. Moreover, most of the existing solutions for offloading assume that all IIoT devices can directly connect to the ESs or cloud data centers. To address these issues, in this paper, we propose a multihop cooperative and distributed computation offloading algorithm that considers the data processing tasks and the mining tasks together for blockchain-empowered IIoT. First, we study the multihop computation offloading problem for both the data processing tasks and the mining tasks to minimize the economic cost of IIoT devices. Second, we formulate the offloading problem as a potential game in which the IIoT devices can make their decisions autonomously and prove the existence of Nash equilibrium (NE) for the game. Third, we design an efficient distributed algorithm based on exchanging messages between IIoT devices to achieve the NE with low computational complexity. Lastly, our experimental results demonstrate that our distributed algorithm scales well as the number of IIoT devices increases and has the minimum system cost compared with other approaches.read more
Citations
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Journal ArticleDOI
Federated Learning With Blockchain for Autonomous Vehicles: Analysis and Design Challenges
Shiva Raj Pokhrel,Jinho Choi +1 more
TL;DR: This work demonstrates that the proposed idea of tuning the block arrival rate is provably online and capable of driving the system dynamics to the desired operating point and identifies the improved dependency on other blockchain parameters for a given set of channel conditions, retransmission limits, and frame sizes.
Journal ArticleDOI
Online Deep Reinforcement Learning for Computation Offloading in Blockchain-Empowered Mobile Edge Computing
TL;DR: This paper forms the online offloading problem as a Markov decision process by considering both the blockchain mining tasks and data processing tasks and introduces an adaptive genetic algorithm into the exploration of deep reinforcement learning to effectively avoid useless exploration and speed up the convergence without reducing performance.
Journal ArticleDOI
DEAL: Differentially Private Auction for Blockchain-Based Microgrids Energy Trading
TL;DR: This paper develops a blockchain based approach for microgrid energy auction that uses differential privacy technique, which ensures that no adversary will be able to infer private information of any participant with confidence, and develops differentially private Energy Auction for bLockchain-based microgrid systems (DEAL).
Journal ArticleDOI
Blockchain Meets Cloud Computing: A Survey
TL;DR: This survey addresses the issue of how blockchain technology inserts into current deployed cloud solutions and enables the reengineering of cloud datacenter, and investigates recent efforts in the technical fusion of blockchain and clouds.
Journal ArticleDOI
Convergence of Blockchain and Edge Computing for Secure and Scalable IIoT Critical Infrastructures in Industry 4.0
Yulei Wu,Hong-Ning Dai,Hao Wang +2 more
TL;DR: The IoT/IIoT critical infrastructure in industry 4.0 is introduced, and then the blockchain and edge computing paradigms are briefly presented, and it is shown how the convergence of these two paradigm can enable secure and scalable critical infrastructures.
References
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Blockchains and Smart Contracts for the Internet of Things
TL;DR: The conclusion is that the blockchain-IoT combination is powerful and can cause significant transformations across several industries, paving the way for new business models and novel, distributed applications.
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Enabling Localized Peer-to-Peer Electricity Trading Among Plug-in Hybrid Electric Vehicles Using Consortium Blockchains
TL;DR: Numerical results indicate that the double auction mechanism can achieve social welfare maximization while protecting privacy of the PHEVs and security analysis shows that the proposed PETCON improves transaction security and privacy protection.
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Consortium Blockchain for Secure Energy Trading in Industrial Internet of Things
TL;DR: This work exploits the consortium blockchain technology to propose a secure energy trading system named energy blockchain, which can be widely used in general scenarios of P2P energy trading getting rid of a trusted intermediary and a credit-based payment scheme to support fast and frequent energy trading.
Journal ArticleDOI
Smart Contract-Based Access Control for the Internet of Things
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