使用区块链技术共享电子健康记录的隐私保护和访问控制

IF 0.8 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Acta Informatica Pragensia Pub Date : 2022-03-13 DOI:10.18267/j.aip.176
Insaf Boumezbeur, K. Zarour
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引用次数: 12

摘要

电子健康记录的共享在医疗保健中具有重要意义。最近,基于云的电子健康记录共享方案已被广泛用于在各种医疗保健组织之间共享患者记录。然而,云集中可能会损害患者的隐私和安全。由于区块链的特殊性,重要的是要将该技术视为解决这些问题的有前景的解决方案。本文提出了一个基于区块链技术的隐私保护、安全的EHR共享和访问控制框架。该提案旨在实施EHR区块链技术,并通过指定用户访问权限来确保电子记录的安全存储。我们在以太坊区块链上模拟加密原语,并使用智能合约来描述EHR所有者和EHR用户之间的关系。我们根据加密和解密时间以及智能合约的成本来评估提案结果。加密和解密时间与EHR的大小成比例,从128KB到128MB不等。当谈到加密时,最小的EHR需要0.0012秒来加密,而最大的EHR(128 MB)需要1.4149秒。另一方面,128 KB的EHR解密需要0.0013秒,而128 MB的EHR则需要1.6284秒。因此,性能评估和安全分析证实了该方案在实际应用中是安全的。
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Privacy Preservation and Access Control for Sharing Electronic Health Records Using Blockchain Technology
Sharing of Electronic Health Records (EHRs) is of significant importance in health care. Lately, a cloudbased electronic health record sharing scheme has been used extensively to share patient records among various healthcare organizations. However, cloud centralization may compromise patients’ privacy and security. Due to the special features of blockchain, it is important to see this technology as a promising solution to resolve these issues. This article proposes a privacy-preserving, secure EHR sharing and access control framework based on blockchain technology. The proposal aims to implement EHR blockchain technology and ensure that electronic records are stored safely by specifying user access permissions. We emulate the cryptographic primitives and use smart contracts to describe the relationships between the EHR owner and EHR user through the proposed system on the Ethereum blockchain. We assess the proposal results based on encryption and decryption time and the costs of the smart contract. The encryption and decryption times are proportional to the size of the EHR, which varies from 128 KB to 128 MB. When it comes to encryption, the smallest EHR takes 0.0012 s to encrypt, while the largest EHR, which is 128 MB, takes 1.4149 s. On the other hand, a 128 KB EHR takes 0.0013 s to decrypt, whereas a 128 MB EHR requires 1.6284 s. As a result, performance evaluation and security analysis confirm that the proposal is secure for practical application.
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来源期刊
Acta Informatica Pragensia
Acta Informatica Pragensia Social Sciences-Library and Information Sciences
CiteScore
1.70
自引率
0.00%
发文量
26
审稿时长
12 weeks
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