Hayder T. Assafli; Ivan A. Hashim; Ahmed A. Naser
Abstract
The Advanced Encryption Standard (AES) has become an attractive encryption method for its high security and fast implementation. The encryption algorithm is approved as a standard to ...
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The Advanced Encryption Standard (AES) has become an attractive encryption method for its high security and fast implementation. The encryption algorithm is approved as a standard to be used in widely used communication and data processing units However, the advance in technology and the introduction of quantum computers made the encryption scheme vulnerable to attack. Different attack procedures are continuously being developed for attacking end decrypted important and sensitive data. This paper evaluated an enhanced Advanced Encryption System operating in Cipher Block Chaining mode that suggests a promising solution for resisting future attacks. The approach depends on a time-dependent initialization vector that produces the initialization vector block depending on the epoch time without sharing any encryption key. The evaluation process includes correlation analysis, global and local Shannon entropy analysis, chi-square analysis, histogram analysis, and differential analysis. The results showed that the enhanced encryption scheme is reliable and can resist most cyber-attacks without exposing any encrypted data to the public. The results were compared with previously published and tested algorithms and found that it satisfies and exceeds the minimum requirement. So, the encryption method can be implemented safely in future communication channels or used in the file encryption process. . .