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- Title
Partial Encryption Scheme of Medical Images Based on DWT, Secret Image Sharing and Hyperchaotic System.
- Authors
Alwan, Ali Hasan; Hashim, Ashwaq T.; Ali, Suhad A.
- Abstract
There has been a significant increase in the demand for secure image storage in healthcare organizations in recent years. Encryption is used to address the challenge of encrypting sizeable digital image files, as full encryption can be computationally expensive and take a long time to process. In this paper, partial and selective encryption is proposed for medical images. First, deep learning based on U-Net is used to localize a tumor region called (ROI) a region of interest. A diffusion phase of the proposed system handles pixel values and positions based on linear and hyperchaotic systems. It includes converting an image's pixel values and repositioning pixels in a predetermined order. In the confusion phase, one level of Integer Discrete Wavelet Transform (IWT) is applied to divide the scrambled region into four sub-bands. Then, a Feistel network based on polynomial-based secret image sharing (SIS) encrypts the lowest frequency band only while the three bands LH, HL, and HH are diffused using a mapping technique based on the Morton scan to swap coefficients positions and then confused based on the hyperchaotic system. The culmination of these techniques results in generating a test image cipher characterized by robust confusion and diffusion properties. Importantly, this methodology has yielded remarkable results, reducing the encryption time by up to 96%. This efficiency is achieved without compromising the security or quality of the encrypted medical images. as high entropy is attained postencryption . Furthermore, by employing the Integer Discrete Wavelet Transform (IWT), the integrity and fidelity of the encrypted images remain uncompromised. Additionally, to bolster the level of confusion in the encryption process, a substantial key space of 21628 has been employed, further enhancing the resilience of the encryption method.
- Subjects
DISCRETE wavelet transforms; MEDICAL imaging systems; DEEP learning; DIAGNOSTIC imaging; IMAGE encryption; LINEAR systems
- Publication
Traitement du Signal, 2024, Vol 41, Issue 4, p1807
- ISSN
0765-0019
- Publication type
Article
- DOI
10.18280/ts.410413