Design of a mathematical fusion model for enhanced cloud data security.

Despite the advantages of cloud computing, such as its scalability and accessibility, the security of the data it holds remains a major concern. This paper proposes a hybrid structure that combines the features of two well-known encryption algorithms. The hybrid structure adopts the DES' flexibility and efficiency while also taking advantage of AES' robustness. Our goal is to offer a higher level of protection for sensitive data that is stored in cloud computing. The paper presents an overview of the various aspects of the proposed architecture, including key management, decryption, and encryption. The first step in the encryption process is to implement the AES before adding the DES for security. The paper provides an overview of the various distribution and key generation techniques. They are designed to ensure that the data is protected from unauthorized access. In addition, we discuss the decryption process, which enables users to retrieve the original data. We performed extensive tests to analyze the security and performance of the proposed architecture. These tests included comparisons with the standalone DES and AES algorithms. The results of the tests revealed that the proposed architecture performed better than the standalone DES and AES algorithms in several aspects. In addition, it exhibited better decryption and encryption speeds. The hybrid structure's improved resource utilization also leads to lower system memory and CPU utilization. Its high throughput helps improve system responsiveness and data processing. The proposed architecture ensures the security of sensitive data by minimizing the time it takes to generate and manage key generation. It also helps improve the efficiency of the process by reducing the file size overhead. The findings of the study highlight the advantages of implementing the hybrid structure in protecting sensitive data stored in cloud computing, as well as its viability. The combination of the DES and the AES offers a flexible and robust approach to safeguarding information. This report serves as a valuable contribution to the field of data security by providing a practical solution to the cloud computing security issues. [ABSTRACT FROM AUTHOR]