Performance Analysis of a Lightweight Robust Chaotic Image Re-encryption Scheme for 5G Heterogeneous Networks

The 5G networks will require a paradigm shift in how they are constructed, managed and supervised for better data security performance. Driven by this trend, secured computing, an emerging computing paradigm, has received a tremendous amount of interest. The conventional image encryption methods are...

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Bibliographic Details
Published in:Wireless personal communications 2023-04, Vol.129 (4), p.2607-2631
Main Authors: Kakkar, Ajay, Singh, Maninder
Format: Article
Language:English
Subjects:
5G mobile communication
Communications Engineering
Computer Communication Networks
Cybersecurity
Electronic devices
Engineering
Lightweight
Mobile computing
Networks
Resource management
Robustness
Signal,Image and Speech Processing
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Summary:The 5G networks will require a paradigm shift in how they are constructed, managed and supervised for better data security performance. Driven by this trend, secured computing, an emerging computing paradigm, has received a tremendous amount of interest. The conventional image encryption methods are not only facing considerable challenges regarding flexibility, dependability, resource management and security that 5G systems will require, but also have huge communication overheads. These issues become more prominent as due to the rapid adoption of mobile devices resulting in the internet images traffic generated by mobile users. Consequently, the sharing of images between remote users using diverse networks increases security issues. Therefore, we propose a lightweight robust chaotic image re-encryption scheme for 5G heterogeneous networks, which provides a balance between computational speed and data security. A comparison of proposed work with existing schemes has been done to show the superiority of the work. Furthermore, the heat dissipation, encryption and hacking time, PSNR and entropy analysis have also been done to depict the strength of the proposed work.
ISSN:0929-6212
1572-834X
DOI:10.1007/s11277-023-10248-z