Journal Article10.1109/JIOT.2019.2957421
A Blockchain-Based Trust Management With Conditional Privacy-Preserving Announcement Scheme for VANETs
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TL;DR: A blockchain-based trust management model, combined with conditional privacy-preserving announcement scheme (BTCPS), is proposed for VANETs and achieves conditional privacy since trusted authority can trace malicious vehicles’ identities in anonymous announcements with the related public addresses.
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Abstract: As the infrastructure of the intelligent transportation system, vehicular ad hoc networks (VANETs) have greatly improved traffic efficiency. However, due to the openness characteristics of VANETs, trust and privacy are still two challenging issues in building a more secure network environment: it is difficult to protect the privacy of vehicles and meanwhile to determine whether the message sent by the vehicle is credible. In this article, a blockchain-based trust management model, combined with conditional privacy-preserving announcement scheme (BTCPS), is proposed for VANETs. First, an anonymous aggregate vehicular announcement protocol is designed to allow vehicles to send messages anonymously in the nonfully trusted environment to guarantee the privacy of the vehicle. Second, a blockchain-based trust management model is present to realize the message synchronization and credibility. Roadside units (RSUs) are able to calculate message reliability based on vehicles’ reputation values which are safely stored in the blockchain. In addition, BTCPS also achieves conditional privacy since trusted authority can trace malicious vehicles’ identities in anonymous announcements with the related public addresses. Finally, a mixed consensus algorithm based on proof-of-work and practical Byzantine fault tolerates algorithm is suggested for better efficiency. Security analysis and performance evaluation demonstrate that the proposed scheme is secure and effective in VANETs.
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Citations
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References
Ethereum: A Secure Decentralised Generalised Transaction Ledger
Gavin Wood
- 01 Jan 2013
TL;DR: Ethereum as mentioned in this paper is a transactional singleton machine with shared state, which can be seen as a simple application on a decentralised, but singleton, compute resource, and it provides a plurality of resources, each with a distinct state and operating code but able to interact through a message-passing framework with others.
4.7K
Practical byzantine fault tolerance and proactive recovery
Miguel Castro,Barbara Liskov +1 more
TL;DR: A new replication algorithm, BFT, is described that can be used to build highly available systems that tolerate Byzantine faults and is used to implement the first Byzantine-fault-tolerant NFS file system, BFS.
A Secure Sharding Protocol For Open Blockchains
Loi Luu,Viswesh Narayanan,Chaodong Zheng,Kunal Baweja,Seth Gilbert,Prateek Saxena +5 more
- 24 Oct 2016
TL;DR: ELASTICO is the first candidate for a secure sharding protocol with presence of byzantine adversaries, and scalability experiments on Amazon EC2 with up to $1, 600$ nodes confirm ELASTICO's theoretical scaling properties.
1.5K
Sprite: a simple, cheat-proof, credit-based system for mobile ad-hoc networks
Sheng Zhong,J. Chen,Yang Yang +2 more
- 09 Jul 2003
TL;DR: In this paper, a simple, cheat-proof, credit-based system for stimulating cooperation among selfish nodes in mobile ad hoc networks is proposed, which does not require any tamper-proof hardware at any node.