Preserving Genotype Privacy Using AES and Partially Homomorphic Encryption

Q4 Earth and Planetary Sciences
Hiba M. Yousif, Sarab M. Hameed
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引用次数: 0

Abstract

     Increasingly, the availability of personal genomic data in cloud servers hosted by hospitals and research centers has incentivized researchers to turn to research that deals with analyzing genomic data. This is due to its importance in detecting diseases caused by genetic mutations, detecting genes that carry genetic diseases, and attempting to treat them in future generations.  Secure query execution on encrypted data is considered an active research area in which encryption is used to ensure the confidentiality of genomic data while restricting the ability to process such data without first decrypting it. To provide a secure framework and future insight into the potential contributions of homomorphic encryption to the field of genomic data, this paper proposes a framework for guaranteeing genomic data privacy using various partial homomorphic encryption techniques. By examining the characteristics of the three partial homomorphic encryptions based on different parameters. The framework has been online tested and compared based on different parameters. Three homomorphic encryption algorithms were adopted to ensure genomic data privacy by employing homomorphic operations in the query matching process. Experiments on real datasets, specifically MERS and SARSr-COV, showed that the proposed framework is efficient and improves query execution time by an average of 96% compared to existing work.
使用 AES 和部分同态加密技术保护基因型隐私
越来越多的个人基因组数据可以从医院和研究中心托管的云服务器中获取,这促使研究人员转向分析基因组数据的研究。这是因为基因组数据在检测基因突变引起的疾病、检测携带遗传疾病的基因以及试图为后代治疗这些疾病方面非常重要。 在加密数据上安全执行查询被认为是一个活跃的研究领域,在这个领域中,加密被用来确保基因组数据的机密性,同时限制在未解密的情况下处理这些数据的能力。为了提供一个安全的框架并深入了解同态加密对基因组数据领域的潜在贡献,本文提出了一个使用各种部分同态加密技术保证基因组数据隐私的框架。通过研究基于不同参数的三种部分同态加密技术的特点。根据不同参数对该框架进行了在线测试和比较。采用三种同态加密算法,通过在查询匹配过程中使用同态操作来确保基因组数据隐私。在真实数据集(特别是 MERS 和 SARSr-COV)上进行的实验表明,所提出的框架非常高效,与现有工作相比,查询执行时间平均缩短了 96%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Iraqi Journal of Science
Iraqi Journal of Science Chemistry-Chemistry (all)
CiteScore
1.50
自引率
0.00%
发文量
241
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