Journal of Control Engineering and Applied Informatics

With the rapid evolution of Internet technology, cloud computing has taken a major role in managing large amounts of data. The major concerns in this domain are security and privacy. Therefore, attaining a reliable level of confidentiality in the cloud computing environment is a pivotal task. Among different types of data stored in the cloud, the 3D point and mesh cloud data are increasingly popular in recent days, due to the growth of 3D modelling and 3D printing technologies. Hence, in this research, we propose a novel scheme for preserving the privacy of 3D point and mesh cloud data. Chaotic map-based data encryption is a recently trending research area due to its unique properties like pseudo-randomness, deterministic nature, sensitivity to initial conditions, ergodicity, etc. Hence, chaotic systems can be regarded as systems of deterministic randomness. We exploit these properties of chaotic systems to encrypt the 3D point and mesh cloud data. To boost encryption efficiency significantly, in this work, we propose a novel chaotic map. The sequence generated by this map is used to transform the coordinates of the cloud data. The improved range of the proposed map is depicted using bifurcation analysis. The quality of the proposed chaotic map is also analyzed using metrics like Lyapunov exponent and approximate entropy. We also demonstrate the performance of the proposed encryption framework using attacks like brute-force attack and statistical attack. The experimental results clearly depict that the proposed framework produces the best results compared to the previous works in the literature.