Novel image encryption method based on correlation between chaos and plaintext

Abstract

The invention provides a novel image encryption method based on correlation between chaos and plaintext. The method comprises the steps: carrying out row and column updating of a plaintext image A, and obtaining a processed image E; employing the modular operation of a gray level 256, changing the pixel sum of the image through the modular operation between rows and the modular operation between columns, and breaking the strong correlation between the adjacent rows and the adjacent columns of an original plaintext image; enabling the pixel sum s of the image E to serve as the feature of the image, extracting the feature of the image, participating the generation of a key stream, carrying out the second layer encryption through scrambling encryption, and obtaining an image Q; and solving a problem that a conventional algorithm employs the same key stream while encrypting different images. Through the gray value diffusion of the image, the method builds the mutual influence between two adjacent pixels, and a secret key directly participates in the output of a ciphertext image. In order to achieve an avalanche effect, the mutual influence between two adjacent pixels is built through the key stream. Meanwhile, a second group of secret keys are designed to participate in the output of the ciphertext image, thereby achieving the third layer encryption.

Description

technical field [0001] The invention relates to the field of image encryption, in particular to a novel image encryption method based on the association of chaos and plaintext. Background technique [0002] With the development and popularization of computer networks, the exchange of digital information (such as: video, audio and images, etc.) is becoming more and more common. Among them, images, as one of the most direct ways for people to understand the natural world, have been widely used in daily life. However, in an open network environment, unauthorized third parties can easily intercept, read or disseminate these image information. In order to protect the security of images, especially private images, military images and even images involving state secrets, people have proposed to encrypt and hide images. Unlike traditional text, images have the characteristics of large data, high redundancy and strong correlation, which makes traditional encryption algorithms (such...

AI Technical Summary

Problems solved by technology

However, there are still many problems that have not been effectively resolved: first, when scrambling and encrypting, the encryption algorithm only considers the scrambling of the pixel position of the image, that is to say, the statistical characteristics of the plaintext image before and after scrambling, especially the histogram The graph remains unchanged; second, the feature "pixel sum" of the plaintext image does not change before diffusion, which is easy to cause a differential attack; third, the key stream used in the image encryption process has nothing to do with the plaintext image, which leads to different image When encrypting, the key stream used remains the same; fourth, the secret key is only used to generate the key stream during the encryption process, and does not directly participate in the acquisition of the ciphertext image

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