Fusion-based advanced encryption algorithm for enhancing the security of Big Data in Cloud

A. Vidhya, P. M. Kumar
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引用次数: 3

Abstract

Every organization in this digital age is expected to exponentially increase its digital data due to generations from machines. The advanced computations of Big Data are now showing various opportunities for the researchers who work on security enhancements to ensure the efficient accessibility of the data stores. Our research work aims to derive a Fusion-based Advanced Encryption Algorithm (FAEA) for a cost-optimized satisfiable security model toward the usage of Big Data in the cloud. The FAEA method is evaluated for its performance toward efficiency, scalability, and security and proved to be 98% ahead of the existing methods of Security Hadoop Distributed File System Sec (HDFS) and Map Reduce Encryption Scheme (MRE). On the other hand, this work aims to address the problems of usage of Big Data in the cloud toward the sole solution, cost-effective solutioning, and proof of ownership. The outcome analysis of FAEA revolves around addressing these three major problems. This research work would be much helpful for the IT industries to manage Big Data in Cloud with security aspects for the decade.
基于融合的高级加密算法,增强云环境下大数据的安全性
在这个数字时代,由于机器的世代更替,预计每个组织的数字数据都将呈指数级增长。大数据的高级计算现在为研究人员提供了各种机会,他们致力于增强安全性,以确保数据存储的有效访问。我们的研究工作旨在推导出一种基于融合的高级加密算法(FAEA),用于在云中使用大数据的成本优化的可满足的安全模型。FAEA方法在效率、可扩展性和安全性方面进行了评估,并被证明比现有的security Hadoop Distributed File System Sec (HDFS)和Map Reduce Encryption Scheme (MRE)方法领先98%。另一方面,本工作旨在解决云计算中大数据的使用问题,以解决唯一解决方案,成本效益解决方案和所有权证明。FAEA的结果分析围绕着解决这三个主要问题展开。这一研究工作将有助于IT行业在未来十年对云中的大数据进行安全管理。
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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