Abutaha Mohammed, Amar Islam, AlQahtani Salman
College of Information Technology and Computer Engineering, Palestine Polytechnic University, Hebron P.O. Box 198, Palestine.
New Emerging Technologies and 5G Networks and Beyond, Computer Engineering Department, College of Computer and Information Sciences, King Saud University, Riyadh 11451, Saudi Arabia.
Entropy (Basel). 2022 Apr 18;24(4):566. doi: 10.3390/e24040566.
Encrypting pictures quickly and securely is required to secure image transmission over the internet and local networks. This may be accomplished by employing a chaotic scheme with ideal properties such as unpredictability and non-periodicity. However, practically every modern-day system is a real-time system, for which time is a critical aspect for achieving the availability of the encrypted picture at the proper moment. From there, we must improve encryption's performance and efficiency. For these goals, we adopted the distributed parallel programming model, namely, the message passing interface (MPI), in this study. Using the message passing interface, we created a novel parallel crypto-system. The suggested approach outperforms other models by 1.5 times. The suggested parallel encryption technique is applicable.
为确保图像在互联网和本地网络上的安全传输,需要快速且安全地加密图片。这可以通过采用具有不可预测性和非周期性等理想特性的混沌方案来实现。然而,实际上每个现代系统都是实时系统,对于实时系统而言,时间是在适当的时候获得加密图片可用性的关键因素。因此,我们必须提高加密的性能和效率。为实现这些目标,本研究采用了分布式并行编程模型,即消息传递接口(MPI)。通过使用消息传递接口,我们创建了一种新颖的并行加密系统。所提出的方法比其他模型的性能高出1.5倍。所提出的并行加密技术是适用的。
