An Accelerator-based Logistic Map Image Cryptosystems for Grayscale Images

Q3 Computer Science Journal of Cyber Security and Mobility Pub Date : 2021-05-15 DOI:10.13052/jcsm2245-1439.1031

M. Holla, A. R. Pais, D. Suma

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Abstract

The logistic map is a class of chaotic maps. It is still in use in image cryptography. The logistic map cryptosystem has two stages, namely permutation, and diffusion. These two stages being computationally intensive, the permutation relocates the pixels, whereas the diffusion rescales them. The research on refining the logistic map is progressing to make the encryption more secure. Now there is a need to improve its efficiency to enable such models to fit for high-speed applications. The new invention of accelerators offers efficiency. But the inherent data dependencies hinder the use of accelerators. This paper discusses the novelty of identifying independent data-parallel tasks in a logistic map, handing them over to the accelerators, and improving their efficiency. Among the two accelerator models proposed, the first one achieves peak efficiency using coalesced memory access. The other cryptosystem further improves performance at the cost of more execution resources. In this investigation, it is noteworthy that the parallelly accelerated logistic map achieved a significant speedup to the larger grayscale image used. The objective security estimates proved that the two stages of the proposed systems progressively ensure security.

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基于加速器的灰度图像逻辑映射密码系统

logistic映射是混沌映射的一类。它仍然在图像密码学中使用。逻辑映射密码系统有两个阶段:置换阶段和扩散阶段。这两个阶段是计算密集的，排列重新定位像素，而扩散重新缩放它们。为了提高加密的安全性，对逻辑映射的细化研究正在进行中。现在有必要提高其效率，使这种模型适合高速应用。新发明的加速器提高了效率。但是固有的数据依赖性阻碍了加速器的使用。本文讨论了在逻辑映射中识别独立的数据并行任务，并将其移交给加速器并提高其效率的新方法。在提出的两种加速器模型中，第一种模型使用合并内存访问实现了最高效率。另一种密码系统以更多的执行资源为代价进一步提高性能。在这项研究中，值得注意的是，并行加速的逻辑图实现了显著的加速，以使用更大的灰度图像。客观的安全性估计证明了所提系统的两个阶段逐步保证了安全性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cyber Security and Mobility Computer Science-Computer Networks and Communications

CiteScore

2.30

自引率

0.00%

发文量

期刊介绍： Journal of Cyber Security and Mobility is an international, open-access, peer reviewed journal publishing original research, review/survey, and tutorial papers on all cyber security fields including information, computer & network security, cryptography, digital forensics etc. but also interdisciplinary articles that cover privacy, ethical, legal, economical aspects of cyber security or emerging solutions drawn from other branches of science, for example, nature-inspired. The journal aims at becoming an international source of innovation and an essential reading for IT security professionals around the world by providing an in-depth and holistic view on all security spectrum and solutions ranging from practical to theoretical. Its goal is to bring together researchers and practitioners dealing with the diverse fields of cybersecurity and to cover topics that are equally valuable for professionals as well as for those new in the field from all sectors industry, commerce and academia. This journal covers diverse security issues in cyber space and solutions thereof. As cyber space has moved towards the wireless/mobile world, issues in wireless/mobile communications and those involving mobility aspects will also be published.