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Blockchain Based Multi-Authority Fine-Grained Access Control System With Flexible Revocation

Meiyan Xiao, Qiong Huang, Ying Miao, Shunpeng Li, Willy Susilo

2021IEEE Transactions on Services Computing23 citationsDOI

Abstract

Traditional data sharing systems are facing new challenges when implementing access control with more and more complex data sharing requirements. Flexibility of user revocation in completely decentralized environments needs to be taken into account. In this article, we propose a Key-Policy Attribute-Based Encryption scheme with Multiple and Flexible Revocation (MAFR-KP-ABE) to achieve the features of decentralized authorization and flexible revocation. We prove the security of our MAFR-KP-ABE scheme in the standard model and provide the comparison with relevant schemes to demonstrate its efficiency. Then we propose a fine-grained access control system based on MAFR-KP-ABE scheme and blockchain that matches the need of paid data sharing services with several security properties enhanced. Security analysis and system implementation are given subsequently to demonstrate our system efficient and secure.

Topics & Concepts

RevocationComputer scienceAccess controlFlexibility (engineering)Computer securityScheme (mathematics)Key (lock)Data sharingComputer networkBlockchainAttribute-based encryptionAuthorizationEncryptionDistributed computingPublic-key cryptographyOperating systemMedicineMathematicsStatisticsMathematical analysisOverhead (engineering)Alternative medicinePathologyCryptography and Data SecurityBlockchain Technology Applications and SecurityPrivacy-Preserving Technologies in Data
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