Modified DNA-based Cryptography System in the Cloud: Deep Maxout-based Fined Tuned Key Generation

IF 0.7 4区计算机科学 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Journal of Web Engineering Pub Date : 2023-11-01 DOI:10.13052/jwe1540-9589.2281

Garima Verma

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引用次数: 0

Abstract

Cloud security is a set of practices and tools created to address both internal and external security threats to businesses. Organizations must have cloud security as they implement their digital transformation schemes and include cloud-based tools and services in their infrastructure. Cryptography is a mechanism for preventing illegal access to data. In this paper, modified DNA-based cryptography (MDNAC), which is defined as data hiding with respect to DNA sequence is used. The steps involved in the proposed MDNAC is: encryption and decryption with optimal key generation. A way of converting plain text into cipher text is known as encryption. Two components make up the encryption process: a key and an encryption algorithm. For the encryption algorithm, we employed a modified DNA algorithm. In the decryption phase, the reverse operation is performed to get the plain text from the cipher text. Moreover, a deep learning model is used for generating the keys; the model used is deep maxout. To ensure the appropriate key generation process, the weights of the deep maxout are optimally tuned by the new feedback assisted Archimedes optimization (FAAO) algorithm. Based on the generated keys, the encryption process takes place. Finally, the performance of MDNAC is evaluated using conventional methods with respect to different measures. Additionally, the MDNAC obtained a correlation value of 0.20297 for the mean case scenario, despite the fact that the corresponding values are 0.02%, 0.17%, 0.2%, 0.7%, 0.12%,0.41%, 0.86%, and 0.46% as compared to the other models such as FAT, AOA, BMO, COOT, BOA, SSO, WOA, and LES respectively.

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云中基于 DNA 的改良密码学系统：基于深度最大输出的微调密钥生成

云安全是一套实践和工具，用于应对企业面临的内部和外部安全威胁。企业在实施数字化转型计划并将基于云的工具和服务纳入其基础设施时，必须具备云安全。密码学是一种防止非法访问数据的机制。本文使用了基于 DNA 的修改密码学（MDNAC），它被定义为与 DNA 序列相关的数据隐藏。拟议的 MDNAC 所涉及的步骤是：通过最优密钥生成进行加密和解密。将纯文本转换为密码文本的方法称为加密。加密过程由两个部分组成：密钥和加密算法。在加密算法方面，我们采用了一种改进的 DNA 算法。在解密阶段，进行反向运算，从密码文本中得到明文。此外，我们还使用了深度学习模型来生成密钥；使用的模型是 deep maxout。为确保密钥生成过程的适当性，深度最大值的权重通过新的反馈辅助阿基米德优化算法（FAAO）进行优化调整。根据生成的密钥进行加密。最后，使用传统方法对 MDNAC 的性能进行了评估。此外，尽管与其他模型（如 FAT、AOA、BMO、COOT、BOA、SSO、WOA 和 LES）相比，相关值分别为 0.02%、0.17%、0.2%、0.7%、0.12%、0.41%、0.86% 和 0.46%，但 MDNAC 在平均情况下获得了 0.20297 的相关值。

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

Journal of Web Engineering 工程技术-计算机：理论方法

CiteScore

1.80

自引率

12.50%

发文量

审稿时长

9 months

期刊介绍： The World Wide Web and its associated technologies have become a major implementation and delivery platform for a large variety of applications, ranging from simple institutional information Web sites to sophisticated supply-chain management systems, financial applications, e-government, distance learning, and entertainment, among others. Such applications, in addition to their intrinsic functionality, also exhibit the more complex behavior of distributed applications.