Litcius/Paper detail

Blockchain-Based Dynamic Provable Data Possession for Smart Cities

Ruonan Chen, Yannan Li, Yong Yu, Huilin Li, Xiaofeng Chen, Willy Susilo

2020IEEE Internet of Things Journal96 citationsDOI

Abstract

Smart cities have experienced rapid development with the advances of information and communication technologies such as Internet of Things (IoT). To tackle the data storage issues raised by large-scale data generated by IoT devices, an increasing number of enterprises and individuals prefer to outsource their data to cloud, where data integrity becomes a concern to cloud users. A variety of provable data possession (PDP) protocols have been proposed for centralized cloud storage scenarios so far. However, a centralized cloud relies too much on the trust of the central servers and, thus, is prone to the single point of failure. In this article, we describe a blockchain-based PDP model to realize the decentralized outsourcing storage framework, and then present a concrete construction of decentralized PDP by using multireplica storage tricks. Moreover, our protocol provides dynamic operations for outsourced data and at the same time, guarantees the fairness of all parties involved. We provide a detailed security proof for the proposed protocol and deploy a smart contract for the protocols as well. We finally evaluate the algorithms and the implementation results demonstrate the practicability of the proposed protocol.

Topics & Concepts

Computer scienceCloud computingCloud storageServerOutsourcingComputer securitySingle point of failureProtocol (science)BlockchainData integrityDistributed computingComputer networkOperating systemMedicineLawAlternative medicinePathologyPolitical scienceCloud Data Security SolutionsBlockchain Technology Applications and SecurityCryptography and Data Security