Reversibly selective encryption for medical images based on coupled chaotic maps and steganography

IF 5 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Complex & Intelligent Systems Pub Date : 2023-10-31 DOI:10.1007/s40747-023-01258-2
Lina Zhang, Xianhua Song, Ahmed A. Abd El-Latif, Yanfeng Zhao, Bassem Abd-El-Atty
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Abstract

The security and confidentiality of medical images are of utmost importance due to frequent issues such as leakage, theft, and tampering during transmission and storage, which seriously impact patient privacy. Traditional encryption techniques applied to entire images have proven to be ineffective in guaranteeing timely encryption and preserving the privacy of organ regions separated from the background. In response, this study proposes a specialized and efficient local image encryption algorithm for the medical field. The proposed encryption algorithm focuses on the regions of interest (ROI) within massive medical images. Initially, the Laplacian of Gaussian operator and the outer boundary tracking algorithm are employed to extract the binary image and achieve ROI edge extraction. Subsequently, the image is divided into ROI and ROB (regions outside ROI). The ROI is transformed into a row vector and rearranged using the Lorenz hyperchaotic system. The rearranged sequence is XOR with the random sequence generated by the Henon chaotic map. Next, the encrypted sequence is arranged according to the location of the ROI region and recombined with the unencrypted ROB to obtain the complete encrypted image. Finally, the least significant bit algorithm controlled by the key is used to embed binary image into the encrypted image to ensure lossless decryption of the medical images. Experimental verification demonstrates that the proposed selective encryption algorithm for massive medical images offers relatively ideal security and higher encryption efficiency. This algorithm addresses the privacy concerns and challenges faced in the medical field and contributes to the secure transmission and storage of massive medical images.

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基于耦合混沌映射和隐写术的医学图像可逆选择性加密
由于在传输和存储过程中经常出现泄漏、盗窃和篡改等问题,严重影响患者隐私,因此医疗图像的安全性和保密性至关重要。应用于整个图像的传统加密技术已被证明在保证及时加密和保护与背景分离的器官区域的隐私方面是无效的。作为回应,本研究提出了一种专门有效的医学领域局部图像加密算法。所提出的加密算法专注于海量医学图像中的感兴趣区域(ROI)。首先,采用拉普拉斯高斯算子和外边界跟踪算法提取二值图像,实现ROI边缘提取。随后,图像被划分为ROI和ROB(ROI之外的区域)。ROI被转换成行向量,并使用洛伦兹超混沌系统进行重新排列。重新排列的序列与Henon混沌映射生成的随机序列进行异或。接下来,根据ROI区域的位置排列加密序列,并将其与未加密的ROB重新组合,以获得完整的加密图像。最后,使用密钥控制的最低有效位算法将二进制图像嵌入加密图像中,以确保医学图像的无损解密。实验验证表明,所提出的针对海量医学图像的选择性加密算法具有相对理想的安全性和较高的加密效率。该算法解决了医疗领域面临的隐私问题和挑战,有助于海量医学图像的安全传输和存储。
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来源期刊
Complex & Intelligent Systems
Complex & Intelligent Systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
9.60
自引率
10.30%
发文量
297
期刊介绍: Complex & Intelligent Systems aims to provide a forum for presenting and discussing novel approaches, tools and techniques meant for attaining a cross-fertilization between the broad fields of complex systems, computational simulation, and intelligent analytics and visualization. The transdisciplinary research that the journal focuses on will expand the boundaries of our understanding by investigating the principles and processes that underlie many of the most profound problems facing society today.
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