In der heutigen digitalen und vernetzten Welt werden nahezu überall unzählige Daten erzeugt und ausgetauscht. Weltweit sollen bis 2022 über 50 Milliarden Geräte und Sensoren über das Internet der Dinge verbunden sein. Die Komplexität des Gesamtsystems steigt kontinuierlich. Klassische Sicherheitslösungen stoßen an ihre Grenzen. Sie errichten möglichst hohe Schutzwälle um die Daten: Applikationen und Infrastrukturen sollen den Datenschutz sicherstellen. Dabei verschlüsselt die Sicherheitstechnik die Daten nicht sofort, wenn diese erzeugt werden, sondern erst nachgelagert.
Gayrat, and Avazjon. IJIRIS:: International Journal of Innovative Research in Information Security, Volume VI (Issue III):
38-42(March 2019)1 Federal Agency on Technical Regulation and Metrology: Block ciphers (2015). http://www.tc26.ru/en/standard/draft/ENG_GOST_R_bsh.pdf. 2 Information technology. Cryptographic data security. Block ciphers operation modes. URL: http://www.tc26.ru/standard/ gost/GOST_R_ 3413-2015.pdf. 3 E. Biham, A. Shamir. Differential cryptanalysis of DES-like cryptosystems // Journal Cryptology. 1991. V. 4. P. 3–72. 4 R. AlTawy, A. Youssef, Meet in the Middle Attack on Reduced Round Kuznyechik, https://eprint.iacr.org/2015/ 096.pdf, pp. 9-12. 5 A. Biryukov, L. Perrin, A. Udovenko, Reverse-Engineering the S-Box of Streebog, Kuznyechik and STRIBOBr1 (Full Version), https://eprint.iacr.org/ 2016/071.pdf, p. 3. 6 V. Dolmatov, GOST R 34.12-2015: Block Cipher "Kuznyechik. http://www.protocols.ru/WP/wp-content/ uploads/2016 /03/ rfc7801.pdf, pp. 3-4. 7 G.U. Juraev, A.A. Ikramov, A.R. Marakhimov, About differential cryptanalysis algorithm of block encryption Kuznyechik //International Journal of Advanced Research in Science, Engineering and Technology. Vol. 6, Issue 2, Feb 2019. –P. 8164-8169. http://www.ijarset.com/upload/2019/february/26-IJARSET-gjuraev.pdf..
M. Shah, and S. Pathak. IJIRIS:: International Journal of Innovative Research Journal in Information Security, Volume IV (Issue XI):
01-04(November 2017)1. Y Manjula, K B Shivakumar. Enhanced Secure Image Steganography using Double Encryption Algorithms, at International Conference on Computing for Sustainable Global Development IEEE, 2016. 2. Aarti Singh, Manisha Malhotra. Hybrid Two-Tier Framework for Improved Security in Cloud Environment, at International Conference on Computing for Sustainable Global Development IEEE, 2016. 3. Vishwanath Mahalle, Aniket Shahade. Enhancing the data security in cloud by implementing Hybrid (RSA & AES) Encryption Algorithm, International journal of pure & applied research in engineering and technology, 2016. 4. Sakinah Ali Pitchay, Wail Abdo Ali Alhiagem, Farida Ridzuan, Madihah Mohd Saudi. A proposed system concept on Enhancing the Encryption and Decryption Method for Cloud Computing, 17th UKSIM-SMSS International Conference on Modelling and Simulation, 2015. 5. K.Yang, J.Xiaohua. Security for Cloud storage systems, Springer Brief in Computer Science, 2014. 6. C.K Chan, L.M Cheng. Hiding data in images by simple LSB substitution, Pattern Recognition, vol.37, pp. 469-474, 2014. 7. M.S Sutaone,M.V Khandare. Image based Steganography using LSB insertion Technique, IET International Conference, 2008. 8. Prof. Vishwanath S. Mahalle. Implementing RSA encryption algorithm to enhance the data security of cloud in cloud computing, International journal of pure & applied research in engineering and technology, 2013, volume 1(8):220-227, ISSN-2319-507X IJPRET..