A Cyber Security Approach Using Multilayer Cryptographic System

Abstract

The cybersecurity is one of the important challenges facing the digital world to protect data over the Internet, where encryption technologies are used for this purpose. This paper illustrates the design, development, and evaluation of a Hybrid RSA and AES Cryptography Framework which combines the strengths of both of these types of cryptographic algorithms to solve real-time data security challenges. RSA ensures secure key distribution; AES ensures speedy data encryption. This hybrid approach combines the benefits of RSA in terms of its ability to safely distribute keys, and AES for quickly encrypting larger data sets, addressing the limitations seen in individual cryptography. Performance analysis demonstrates that the hybrid system performs efficiently without significant compromise between encryption speed and security, making it an excellent candidate for resource-constrained environments and applications where real-time processing is needed. In addition, the proposed structure was exposed to strict evaluation against installed safety standards, which demonstrates its strength against larger blockages, attacks on cruel power, and cryptanalytic efforts. Comparative studies with existing functions highlight the scalability and practical relevance of the system in the protection of sensitive communication, financial transactions, and cloud-based data. By integrating RSA and AES within a hybrid frame, the study helps promote the cryptographic feature designed for modern applications, introducing a scalable, efficient, and secure model for protecting digital assets in a quick mutual environment.