Lijing Zhou scite author profile

Currently, blockchain technology, which is decentralized and may provide tamper-resistance to recorded data, is experiencing exponential growth in industry and research. In this paper, we propose the MIStore, a blockchain-based medical insurance storage system. Due to blockchain’s the property of tamper-resistance, MIStore may provide a high-credibility to users. In a basic instance of the system, there are a hospital, patient, insurance company and n servers. Specifically, the hospital performs a (t, n)-threshold MIStore protocol among the n servers. For the protocol, any node of the blockchain may join the protocol to be a server if the node and the hospital wish. Patient’s spending data is stored by the hospital in the blockchain and is protected by the n servers. Any t servers may help the insurance company to obtain a sum of a part of the patient’s spending data, which servers can perform homomorphic computations on. However, the n servers cannot learn anything from the patient’s spending data, which recorded in the blockchain, forever as long as more than n − t servers are honest. Besides, because most of verifications are performed by record-nodes and all related data is stored at the blockchain, thus the insurance company, servers and the hospital only need small memory and CPU. Finally, we deploy the MIStore on the Ethererum blockchain and give the corresponding performance evaluation.

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BeeKeeper: A Blockchain-Based IoT System With Secure Storage and Homomorphic Computation

Zhou

et al. 2018

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BeeKeeper 2.0: Confidential Blockchain-Enabled IoT System with Fully Homomorphic Computation

Zhou

Wang

et al. 2018

Sensors

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Blockchain-enabled Internet of Things (IoT) systems have received extensive attention from academia and industry. Most previous constructions face the risk of leaking sensitive information since the servers can obtain plaintext data from the devices. To address this issue, in this paper, we propose a decentralized outsourcing computation (DOC) scheme, where the servers can perform fully homomorphic computations on encrypted data from the data owner according to the request of the data owner. In this process, the servers cannot obtain any plaintext data, and dishonest servers can be detected by the data owner. Then, we apply the DOC scheme in the IoT scenario to achieve a confidential blockchain-enabled IoT system, called BeeKeeper 2.0. To the best of our knowledge, this is the first work in which servers of a blockchain-enabled IoT system can perform any-degree homomorphic multiplications and any number of additions on encrypted data from devices according to the requests of the devices without obtaining any plaintext data of the devices. Finally, we provide a detailed performance evaluation for the BeeKeeper 2.0 system by deploying it on Hyperledger Fabric and using Hyperledger Caliper for performance testing. According to our tests, the time consumed between the request stage and recover stage is no more than 3.3 s, which theoretically satisfies the production needs.

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AntNest: Fully Non-Interactive Secure Multi-Party Computation

et al. 2018

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RZcash: A Privacy Protection Scheme for the Account-based Blockchain

Bai¹,

Wang²,

Zhou³

et al. 2019

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Lijing Zhou

MIStore: a Blockchain-Based Medical Insurance Storage System

BeeKeeper: A Blockchain-Based IoT System With Secure Storage and Homomorphic Computation

BeeKeeper 2.0: Confidential Blockchain-Enabled IoT System with Fully Homomorphic Computation

AntNest: Fully Non-Interactive Secure Multi-Party Computation

RZcash: A Privacy Protection Scheme for the Account-based Blockchain

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