АНАЛИЗ ЛЕГКИЙ КРИПТОГРАФИЧЕСКОГО АЛГОРИТМА PRESENT
Ключевые слова:
PRESENT, IoT, легкая криптография, NIST, Simon, SPEAK, Katan, KleinАннотация
Ushbu maqola Internet of Things (IoT) qurilmalari va ularda ishlatiladigan engil, kam quvvatli kriptografik algoritmlar haqidagi statistikani taqdim etadi. Ushbu mavzu doirasidagi tadqiqotlar va ularning natijalari tahlili keltirilgan. Engil PRESENT shifrining ishlash bosqichlari va uni bir xil ish muhitida, ya'ni CrypTool 2.1 dasturida SPEAK shifr bilan solishtirish ham tavsiflangan. Algoritmlarning qiyosiy tahlili o‘tkazildi, uning asosida IoT qurilmalarining xavfsizlik talablariga javob beradigan, PRESENT algoritmidagi takrorlanishlar sonini qisqartirgan holda takomillashtirilgan shifrlash algoritmini ishlab chiqish taklif qilindi.
Библиографические ссылки
Foydalanilgan adabiyotlar
Zscaler ThreatLabz. (2024, November 22). New ThreatLabz report: Mobile remains the top threat vector with 111% spyware growth. Zscaler.
Rana, M.& Mamun, Q & Islam, R. Balancing Security and Efficiency: A Power Consumption Analysis of a Lightweight Block Cipher. Electronics 2024, 13, 4325. https://doi.org/ 10.3390/electronics13214325
Christophe De Canniere & Orr Dunkelman & Miroslav Knezevic., KATAN and KTANTAN-a family of small and efficient hardware-oriented block ciphers., Cryptographic Hardware and Embedded Systems-CHES 2009., Springer LNCS, vol. 5747, 2009, pp. 272–288.
J. Borghoff., PRINCE–a low-latency block cipher for pervasive computing applications., Advances in Cryptology–ASIACRYPT., Springer LNCS, vol. 7658, 2012, pp. 208–225.
Ray Beaulieu & Douglas Shors, Jason Smith & StefanTreatman Clark, Bryan Weeks & Louis Wingers., The SIMON and SPECK families of lightweight block ciphers., IACR Cryptology ePrint Archive (2013).
Deukjo Hong& Jaechul Sung, Seokhie Hong& Jongin Lim&Sangjin Lee., HIGHT: A new block cipher suitable for low-resource device., Cryptographic Hardware and Embedded Systems., Springer Berlin Heidelberg, 2006, pp. 46–59.
Gaurav Bansod&Nishchal Raval., Implementation of a new lightweight encryption design for embedded security, IEEE Trans. Inf. Forensics Security. 10 (1) (2015) 142–151.
G Hatzivasilis&K Fysarakis, I Papaestathi& H Favas., Review of light weight block ciphers., J. Cryptogr. Eng. 8 (2) (2017) 141–184.
Dixit R& Kumar L&Verma S, Gupta K&Jain S., An overview of lightweight cipher., CEUR Workshop Proceedings. https://doi.org/10.1016/j.aci.2018.
Bogdanov A&Knudsen L. Leander G& Paar "PRESENT: An ultra-lightweight block cipher"., In Workshop on Cryptographic Hardware and Embedded Systems (pp. 450-466). Springer, Berlin, Heidelberg.
Fernando M.& Mahmud S.& Wang S., Lightweight encryption for IoT applications: A comprehensive review., Discover Internet of Things, 3(1), 100100. https://doi.org/10.1016/j.discint.2023.100100 .
Qozoqova T.Q. & Shamshiyeva B.M., Applying the CryptoSMT software tool to symmetric block encryption algorithms. pp-750-754
Qozoqova T.Q. Teaching cryptanalysis of classic encryption methods using modern tools. «Инновации, знания, опыт – векторы образовательных треков» КНИГА I
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