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2023-07-14
Ratheesh, T K, Paul, Varghese.  2022.  A Public Key Cryptography based Mechanism for the Secure Transmission of RGB Images using Elliptic Curve based Hill Cipher and Magic Square Concept. 2022 IEEE 2nd International Conference on Mobile Networks and Wireless Communications (ICMNWC). :1–6.
The use of image data in multimedia communication based applications like military applications and medical images security applications are increasing every day and the secrecy of the image data is extremely important for such applications. A number of methods and techniques for securely transmitting images are proposed in the literature based on image encryption and steganography approaches. A novel mechanism for transmitting color images securely is proposed in this paper mainly based on public key cryptography mechanism also by combining the advantage of simplicity of symmetric schemes. The technique combines the strengths of Elliptic Curve Cryptography and the classical symmetric cryptographic mechanism called Hill Cipher encryption method. The technique also includes the concept of Magic Square for jumbling the pixels yielding maximum diffusion in the image pixels. In the performance evaluation, the proposed method proved that the new system works pretty well. The method is proved to be effective in maintaining the confidentiality of the image in transit and also for resisting security attacks.
2023-07-13
Senthilnayaki, B., Venkatalakshami, K., Dharanyadevi, P., G, Nivetha, Devi, A..  2022.  An Efficient Medical Image Encryption Using Magic Square and PSO. 2022 International Conference on Smart Technologies and Systems for Next Generation Computing (ICSTSN). :1–5.
Encryption is essential for protecting sensitive data, especially images, against unauthorized access and exploitation. The goal of this work is to develop a more secure image encryption technique for image-based communication. The approach uses particle swarm optimization, chaotic map and magic square to offer an ideal encryption effect. This work introduces a novel encryption algorithm based on magic square. The image is first broken down into single-byte blocks, which are then replaced with the value of the magic square. The encrypted images are then utilized as particles and a starting assembly for the PSO optimization process. The correlation coefficient applied to neighboring pixels is used to define the ideal encrypted image as a fitness function. The results of the experiments reveal that the proposed approach can effectively encrypt images with various secret keys and has a decent encryption effect. As a result of the proposed work improves the public key method's security while simultaneously increasing memory economy.