基于DNA密码法的传统安全保护算法

2022 Muthanna International Conference on Engineering Science and Technology (MICEST) Pub Date : 2022-03-16 DOI:10.1109/MICEST54286.2022.9790265

A. H. Hadi, Sameer Hameed Abdulshaheed, Salim Muhsen Wadi

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引用次数: 1

摘要

加密定义为将信息过程(称为明文)转换为不可读的秘密格式(称为密文)。这段密文只有经过授权的牧师才能看懂。解密是将密文转换回明文的过程。基于脱氧核糖核酸(DNA)的信息加密技术近年来在大量的加密算法中得到应用。以DNA为数据载体，以现代生物技术为实现工具。本文提出了一种新的基于DNA的加密算法。建议的方法包括三个步骤(常规、流密码和DNA)，以获得高安全级别。在常规步进中根据字符位置移位替换字符，在流密码步进中转换为ASCII并使用AddRoundKey。第二步的结果转化为DNA，然后应用AddRoundKey与DNA key。性能评估结果证明，该算法对重要数据的加密具有较高的安全性。

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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Safeguard Algorithm by Conventional Security with DNA Cryptography Method

Encryption defined as change information process (which called plaintext) into an unreadable secret format (which called ciphertext). This ciphertext could not be easily understood by somebody except authorized parson. Decryption is the process to converting ciphertext back into plaintext. Deoxyribonucleic Acid (DNA) based information ciphering techniques recently used in large number of encryption algorithms. DNA used as data carrier and the modern biological technology is used as implementation tool. New encryption algorithm based on DNA is proposed in this paper. The suggested approach consists of three steps (conventional, stream cipher and DNA) to get high security levels. The character was replaced by shifting depend character location in conventional step, convert to ASCII and AddRoundKey was used in stream cipher step. The result from second step converted to DNA then applying AddRoundKey with DNA key. The evaluation performance results proved that the proposed algorithm cipher the important data with high security levels.

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2022 Muthanna International Conference on Engineering Science and Technology (MICEST)

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