SUN’IY INTELEKT ALGORITMLARI YORDAMIDA SM4 SHIFRLASH ALGORITMINING S-BLOK KOMPENTINI O‘QITISH VA S-BLOK AKSLANTIRISHNI MASHINALI O‘QITISH MODELI YORDAMIDA AMALGA OSHIRISH
##plugins.themes.bootstrap3.article.sidebar##
##plugins.themes.bootstrap3.article.main##
Abstrak:
Ushbu maqolada sun’iy intellekt algoritmlari yordamida SM4 shifrlash algoritmining S-box (Substitution box) komponentini mashinaviy o‘qitish modeli orqali o‘qitish jarayoni yoritiladi. SM4 algoritmi Xitoy milliy simmetrik blok shifrlash standarti bo‘lib, uning xavfsizlik darajasini oshirish uchun asosiy komponentlaridan biri bo‘lgan S-box nolinear akslantirish funksiyasini o‘rganish va model orqali takrorlash muhim ahamiyat kasb etadi. Ushbu jarayonda mashinaviy o‘qitish texnikalari, xususan, sun’iy neyron tarmoqlari va boshqa mashinaviy o‘qitish algoritmlarining roliga e’tibor qaratiladi.
##plugins.themes.bootstrap3.article.details##
##submission.howToCite##:
##submission.citations##:
Ahmadov, N., Karimov, S. (2020). Kriptografiya va axborot xavfsizligi. Toshkent: O‘zbekiston davlat nashriyoti.
Aydarov, A. (2019). Axborot xavfsizligi va kriptografiya asoslari. Toshkent: O'zbekiston Fanlar Akademiyasi nashriyoti.
Matsui, M. (1994). Linear Cryptanalysis Method for DES Cipher. In: Advances in Cryptology – EUROCRYPT’93. Springer, Berlin, Heidelberg.
Stallings, W. (2017). Cryptography and Network Security: Principles and Practice. 7th Edition. Pearson Education.
Jin, J. (2007). SM4 Blockcipher Algorithm Specification. Chinese Commercial Cryptography Administration, China. Available at: http://www.oscca.gov.cn (kirish sanasi: 2024).
Zafarov, A., Rakhimov, N. (2021). SM4 shifrlash algoritmi va uning xavfsizlik tahlili. O‘zbekiston Kriptografiya Jurnali, 12(3), 45-56.
Goodfellow, I., Bengio, Y., Courville, A. (2016). Deep Learning. Cambridge: MIT Press.
Weng, Z., Zhou, P. (2010). SM4 Algorithm and Its Applications in Wireless Communication. International Journal of Network Security, 7(1), 1-7.
Alimov, T. (2022). Mashinaviy o‘qitishning kriptografik tizimlarda qo‘llanilishi. Axborot Texnologiyalari Jurnali, 5(2), 32-41.
Chen, L., Zhang, Y. (2018). Machine Learning for Cryptanalysis. In: Advances in Cryptology – ASIACRYPT 2018. Springer, Berlin, Heidelberg.
Dorofeev, A., Kuznetsov, I. (2020). Differentsial tahlil va uning S-box komponentiga ta’siri. Kriptoanaliz va Axborot Xavfsizligi, 15(4), 24-33.
Vazirov, S. (2019). Sun’iy intellekt va axborot xavfsizligi. Axborot texnologiyalari va kriptografiya tahlillari. Toshkent: Yoshlar Nashriyoti.
Shamir, A. (1979). Differential Cryptanalysis of Feistel Ciphers and DES. Journal of Cryptology, 2(1), 12-25.
Guliyev, N., Qodirova, M. (2020). Mashinaviy o‘qitish algoritmlarini kriptografik tizimlarda qo‘llash. O‘zbekiston Kriptografiya Jurnali, 11(2), 22-34.
Yao, A. C. (1982). Protocols for Secure Computations. In: Proceedings of the 23rd Annual Symposium on Foundations of Computer Science (FOCS). IEEE.