An investigation of entropy of selectively encrypted bitmap images

2012 Fourth International Conference on Computational Aspects of Social Networks (CASoN) Pub Date : 2012-11-01 DOI:10.1109/CASoN.2012.6412409

R. Lundin, S. Lindskog

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引用次数: 2

Abstract

Selective encryption is a concept in which the main goal is to reduce computational cost while providing confidentiality by encrypting only chosen parts of the information to be protected. Previous work on selective encryption has mainly been aimed towards multimedia applications in order to reduce the overhead induced by encryption while still making the information perceptually secure to a desired protection level. This was accomplished by utilizing the fact that different parts of the information have different impacts on our perception senses, i.e., eyes and ears. How computationally secure the information is when using selective encryption has however only briefly been mentioned or rudimentarily analyzed. In this paper, we therefore investigate the security implications of selective encryption by generalizing the work on entropy of selectively encrypted strings to several dimensions and applying it to bitmap images. The generalization is done by constructing information neighborhoods that capture and model information dependencies in several dimensions.

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选择性加密位图图像熵的研究

选择性加密是一个概念，其主要目标是通过只加密要保护的信息的选定部分来降低计算成本，同时提供机密性。以前关于选择性加密的工作主要针对多媒体应用，目的是减少加密引起的开销，同时仍然使信息在感知上安全到所需的保护级别。这是通过利用信息的不同部分对我们的感知感官(即眼睛和耳朵)有不同影响的事实来实现的。然而，当使用选择性加密时，信息的计算安全性如何仅被简要提及或初步分析。因此，在本文中，我们通过将选择性加密字符串的熵的工作推广到几个维度并将其应用于位图图像来研究选择性加密的安全含义。泛化是通过构建信息邻域来实现的，这些信息邻域可以在几个维度上捕获和建模信息依赖关系。

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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2012 Fourth International Conference on Computational Aspects of Social Networks (CASoN)

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