Abstract
With the rapid progress in space technology development, a lot of digital images are transmitted back to ground telescope receiver. Thus, image security plays a significant role during the transmission process. Existing algorithms in image security were developed based on Latin squares, DNA sequence etc. However, the suitability of the techniques is questionable and high cost was needed. In this paper, Combined Spatial and Frequency Domains (CSFD) algorithm is proposed. It discusses the RGB color image security algorithm based on the images combined spatial and frequency domain. Fourier transform is applied to an RGB color telescope image before it is processed in spatial domain. Then, the R, G, and B components are extracted out before they are encrypted by two levels of encryption algorithm. The outputs were evaluated using NPCR, UACI, PSNR, and information entropy. The results showed that this algorithm has better performance compared to other recently developed algorithms.
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We would like to show our gratitude to i-CATS University College for supporting the publication financially.
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Ting, K.C., Yeap, K.H., Teh, P.C., Lai, K.C., Francis-Lothai, F. (2022). Combined Spatial and Frequency Domains in Algorithm of RGB Color Image Security for Telescope Images. In: Ghazali, R., Mohd Nawi, N., Deris, M.M., Abawajy, J.H., Arbaiy, N. (eds) Recent Advances in Soft Computing and Data Mining. SCDM 2022. Lecture Notes in Networks and Systems, vol 457. Springer, Cham. https://doi.org/10.1007/978-3-031-00828-3_18
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