This research paper presents a novel digital color image encryption approach that ensures high-level security while remaining simple and efficient. The proposed method utilizes a composite key r and x of 128-bits to create a small in-dimension private key (a chaotic map), which is then resized to match the color matrix dimension. The proposed method is uncomplicated and can be applied to any image without any modification. Image quality, sensitivity analysis, security analysis, correlation analysis, quality analysis, speed analysis, and attack robustness analysis are conducted to prove the efficiency and security aspects of the proposed method. The speed analysis shows that the proposed method improves the performance of image cryptography by minimizing encryption–decryption time and maximizing the throughput of the process of color cryptography. The results demonstrate that the proposed method provides better throughput than existing methods. Overall, this research paper provides a new approach to digital color image encryption that is highly secure, efficient, and applicable to various images.
CITATION STYLE
Abu-Faraj, M., Al-Hyari, A., Obimbo, C., Aldebei, K., Altaharwa, I., Alqadi, Z., & Almanaseer, O. (2023). Protecting Digital Images Using Keys Enhanced by 2D Chaotic Logistic Maps. Cryptography, 7(2). https://doi.org/10.3390/cryptography7020020
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