Browsing by Author "Natiq, Hayder"
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Article Citation - WoS: 8Citation - Scopus: 9Image Encryption Algorithm Based on New Fractional Beta Chaotic Maps(Tech Science Press, 2022) Ibrahim, Rabha W.; Baleanu, Dumitru; Natiq, Hayder; Alkhayyat, Ahmed; Farhan, Alaa Kadhim; Al-Saidi, Nadia M. G.; Baleanu, Dumitru; 56389; MatematikIn this study, a new algorithm of fractional beta chaotic maps is proposed to generate chaotic sequences for image encryption. The proposed technique generates multi random sequences by shuffling the image pixel position. This technique is used to blur the pixels connecting the input and encrypted images and to increase the attack resistance. The proposed algorithm makes the encryption process sophisticated by using fractional chaotic maps, which hold the properties of pseudo-randomness. The fractional beta sequences are utilized to alter the image pixels to decryption attacks. The experimental results proved that the proposed image encryption algorithm successfully encrypted and decrypted the images with the same keys. The output findings indicate that our proposed algorithm has good entropy and low correlation coefficients. This translates to enhanced security against different attacks. A MATLAB programming tool was used to implement and assess the image quality measures. A comparison with other image encryption techniques regarding the visual inspection and signal-to-noise ratio is provided.Article Citation - WoS: 5Citation - Scopus: 6The dynamic and discrete systems of variable fractional order in the sense of the Lozi structure map(Amer inst Mathematical Sciences-aims, 2022) Al-Saidi, Nadia M. G.; Baleanu, Dumitru; Natiq, Hayder; Baleanu, Dumitru; Ibrahim, Rabha W.; 56389; MatematikThe variable fractional Lozi map (VFLM) and the variable fractional flow map are two separate systems that we propose in this inquiry. We study several key dynamics of these maps. We also investigate the sufficient and necessary requirements for the stability and asymptotic stability of the variable fractional dynamic systems. As a result, we provide VFLM with the necessary criteria to produce stable and asymptotically stable zero solutions. Furthermore, we propose a combination of these maps in control rules intended to stabilize the system. In this analysis, we take the 1D-and 2D-controller laws as givens.