Quantum-Inspired Algorithms for Secure Cloud Data Migration and Encryption

Abstract

The necessity to provide the effective and secure data migration processes is growing inexorably because of the fact that cloud computing is being created as the foundation of the modern digital ecosystems. However, the conventional encryption and migration algorithms are challenging in the ability to resist the quantum computing attacks that currently exist and offer security at realtime. In this paper, quantum based hybrid encryption system of safe cloud data transfer has been proposed. The framework embraces the quantum key distribution (QKD) concepts, optimization of chaotic map and generates keys with the help of the genetic algorithm to carry out the high speed and adaptive encryption. The simulated transfers of the data between the nodes of the cloud data have proved that the cloud data encryption solidity and the time lag is 47 and 31 less than the traditional AES and RSA systems respectively. One of the most probable pre-quantum defence technologies which will allow the data to be transferred safely and successfully in the case of the dynamic cloud infrastructures is quantum-inspired computing as it is revealed in the present paper.