An efficient image homomorphic encryption scheme with small ciphertext expansion

Peijia Zheng, Jiwu Huang
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引用次数: 39

Abstract

The field of image processing in the encrypted domain has been given increasing attention for the extensive potential applications, for example, providing efficient and secure solutions for privacy-preserving applications in untrusted environment. One obstacle to the widespread use of these techniques is the ciphertext expansion of high orders of magnitude caused by the existing homomorphic encryptions. In this paper, we provide a way to tackle this issue for image processing in the encrypted domain. By using characteristics of image format, we develop an image encryption scheme to limit ciphertext expansion while preserving the homomorphic property. The proposed encryption scheme first encrypts image pixels with an existing probabilistic homomorphic cryptosystem, and then compresses the whole encrypted image in order to save storage space. Our scheme has a much smaller ciphertext expansion factor compared with the element-wise encryption scheme, while preserving the homomorphic property. It is not necessary to require additional interactive protocols when applying secure signal processing tools to the compressed encrypted image. We present a fast algorithm for the encryption and the compression of the proposed image encryption scheme, which speeds up the computation and makes our scheme much more efficient. The analysis on the security, ciphertext expansion ratio, and computational complexity are also conducted. Our experiments demonstrate the validity of the proposed algorithms. The proposed scheme is suitable to be employed as an image encryption method for the applications in secure image processing.
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一种具有小密文扩展的高效图像同态加密方案
加密领域的图像处理因其广泛的应用前景而受到越来越多的关注,例如为非可信环境下的隐私保护应用提供高效、安全的解决方案。阻碍这些技术广泛应用的一个障碍是现有的同态加密导致的密文扩展的高数量级。在本文中,我们提供了一种解决这一问题的方法,用于加密域的图像处理。利用图像格式的特点,提出了一种既限制密文扩展又保持密文同态的图像加密方案。该加密方案首先使用现有的概率同态密码系统对图像像素进行加密,然后对整个加密图像进行压缩以节省存储空间。与元素加密方案相比,我们的方案具有更小的密文扩展因子,同时保持了密文的同态特性。在对压缩的加密图像应用安全信号处理工具时,不需要额外的交互协议。提出了一种快速的图像加密和压缩算法,加快了算法的计算速度,提高了算法的效率。并对该算法的安全性、密文扩展率和计算复杂度进行了分析。实验证明了所提算法的有效性。该方案适合作为一种图像加密方法应用于安全图像处理。
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