Modifying the AES Algorithm by Improving the Add Round Key Stage

Wasit Journal of Computer and Mathematics Science Pub Date : 2023-09-30 DOI:10.31185/wjcms.162

Hasan kadhim Ali Alsuwaiedi

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Abstract

This study offers a new adjustment to the Advanced Encryption Standard (AES) in order to assure a high degree of security. This is achieved by replacing the binary (XOR) operation with a new (Xo) operation in each add-round-key stage. The Xo operation generated an extra six randomly selected control keys determined by six state tables (2, 4, 6, 8, 10, and 12) produced from the addition operation in the Galois Field GF (2^2 ,2^4 ,2^6 , 2^8, 2^10 and 2^12 ) in order to boost the algorithm's unpredictability. In the suggested method, an adversary requires at least probabilities of keys to break the message; hence, it improves the difficulty of the original AES against brute force attacks. also enhances the performance of additional security metrics, such as NIST tests, compared to the original AES. Consequently, this replacement, including the use of six keys in both the encryption and decryption processes, offers a new level of security and a higher degree of resistance to data breaches. The novelty of the proposed (Xo) technique lies in the construction of GF tables ( 2^6 , 2^10 and 2^12) to be used in the encryption and decryption process for the first time, as well as the approach utilized to create the code for it.

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通过改进Add Round Key Stage修改AES算法

本研究对高级加密标准(AES)进行了新的调整，以确保高度的安全性。这是通过在每个添加圆键阶段用一个新的(Xo)操作替换二进制(XOR)操作来实现的。Xo操作生成了额外的6个随机选择的控制键，这些控制键由伽罗瓦域GF(2^2、2^4、2^6、2^8、2^10和2^12)中的加法操作产生的6个状态表(2、4、6、8、10和12)决定，以提高算法的不可预测性。在建议的方法中，攻击者至少需要密钥的概率来破解消息;因此，它提高了原始AES对抗暴力攻击的难度。与原始AES相比，它还增强了其他安全指标(如NIST测试)的性能。因此，这种替换，包括在加密和解密过程中使用六个密钥，提供了更高级别的安全性和更高程度的抗数据泄露能力。所提出的(Xo)技术的新颖之处在于首次在加密和解密过程中使用GF表(2^6,2^10和2^12)的构造，以及用于为其创建代码的方法。

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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Wasit Journal of Computer and Mathematics Science

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