Abstract
In the present global scenario, social distancing is an inevitable one. The need for social distancing and advancements of technology to facilitate the patients and doctors around the world mandated the telemedicine and remote monitoring of patience details as the pivotal way to diagnose the disease. In this, it is essential to transmit the patient’s information such as X-ray and scan images of them to the doctor in the remote location. Preventing the medical data from the technological adversaries is the need of the hour. Infinitesimal attacks in medical images may cost human lives. This work proposes a lightweight, secure medical image encryption scheme for the remote monitoring of health data. The proposed encryption scheme uses computationally less complex weighted shift approximate adder (WSAA)–based encryption logic. The scheme uses a 256-bit key for the encryption process that strengthens the encryption and robust against various attacks. The proposed encryption scheme deploys the WSAA for diffusing the pixel values. A unique way of key distribution for pixel-wise encryption within the image is proposed that avoids the need for separate logic for the pixel-wise confusion. The proposed Encryption scheme is evaluated for its entropy and horizontal, vertical, diagonal correlation, histogram, key space, and sensitivity. Experimental results affirm that the proposed scheme significantly good with less computational complexity. The peak signal-to-noise ratio (PSNR) value of the decrypted image is infinity, and this matches the ideal requirement of the medical encryption scheme.
Highlights
In the present global scenario, social distancing is an inevitable one. e need for social distancing and advancements of technology to facilitate the patients and doctors around the world mandated the telemedicine and remote monitoring of patience details as the pivotal way to diagnose the disease
A unique way of key distribution for pixel-wise encryption within the image is proposed that avoids the need for separate logic for the pixel-wise confusion. e proposed Encryption scheme is evaluated for its entropy and horizontal, vertical, diagonal correlation, histogram, key space, and sensitivity
Experimental results affirm that the proposed scheme significantly good with less computational complexity. e peak signal-to-noise ratio (PSNR) value of the decrypted image is infinity, and this matches the ideal requirement of the medical encryption scheme
Summary
Is work proposes a lightweight, secure medical image encryption scheme for the remote monitoring of health data. Is scheme concentrates on the region of the interest portion of the medical image rather than useless black pixels around the actual medical image To do that, this scheme first performs edge detection encrypts the edges with the random keys generated by chaotic map using onetime pad algorithm. Our proposed architecture carefully handles the listed overheads and makes use of the novel weighted shift approximate adder to form a simple, lightweight, and secure encryption scheme. Our proposed random error approximate adder-based lightweight encryption and decryption scheme for securing remote medical data deploys the novel proposed random WSAA for bringing diffusion kind of property to the pixel values. Bit Positions 7 6 5 4 3 2 1 0 Carry 0 1 0 1 0 0 1 0 Shifted Segmented Key ⊕⊕⊕⊕⊕⊕⊕⊕
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