Model of Reconfigurable Steganographic System Using Blockchain Technology

An effective method for solving data security problems is proposed. A new approach to the design of steganographic system based on the three basic methods - the introduction of parts of a shared secret into images with the possibility of further extraction of secret information, authentication of parts of a secret, self-healing of this security system. Such a system provides a greater degree of protection and secure data storage. The Windows application implements the proposed steganographic model, has no analogues and meets all the requirements set for steganographic software.

1. Genkin A, Miheev A. Blokchejn. Kak eto rabotaet i chto zhdet nas zavtra [Blockchain. How it works and what awaits us tomorrow]. M.: Al'pina Pablisher, 2017, p. 592 (In Russian).

2. Pryanikov M. M., CHugunov A. V. Blokchejn kak kommunikacionnaya osnova formirovaniya cifrovoj ekonomiki: preimushchestva i problemy [Tekst] [Blockchain as a communication basis for the formation of a digital economy: advantages and problems [Text]] International Journal of Open Information Technologies, 2017, vol. 5, no. 6, pp. 49–55 (In Russian).

3. Razhkov A. F. Timoshchenko E. V. Model' rekonfiguriruemoj steganograficheskoj sistemy s primeneniem tekhnologii blokchejn [Model of reconfigurable steganographic system using blockchain technology]. Novye matematicheskie metody i komp'yuternye tekhnologii v proektirovanii, proizvodstve i nauchnyh issledovaniyah: materialy XXII Respublikanskoj nauchnoj konferencii studentov i aspirantov. Gomel', 2019, pp. 290–291 (In Russian).

4. Razhkov A. F. Timoshchenko E. V. Ispol'zovanie steganograficheskogo metoda Koha i ZHao dlya sokrytiya informacii v cifrovyh izobrazheniyah [Using the steganographic method of Koch and Zhao to hide information in digital images]. Pervyj shag v nauku, 2018, materialy Mezhdunar. foruma stud. i uchashch. molodezhi v ramkah Mezhdunar. nauch.-prakt. innovac. foruma «INMAX’18». CH.4. Mn: Laboratoriya intellekta, 2018, pp. 66-68. (In Russian).

5. Timoshchenko E.V. Obespechenie informacionnoj bezopasnosti metodom steganografii [Information security by steganography] Aktual'nye problemy pravovyh, ekonomicheskih i gumanitarnyh nauk: materialy IX Mezhdunarodnoj nauchno-prakticheskoj konferencii professorsko-prepodavatel'skogo sostava, aspirantov, magistrantov i studentov. Minsk, 9 aprelya 2019 g.: v trekh chastyah / red. kol. S.F. Sokol [i dr.]. Minsk: BIP, 2019, CH. 2., pp. 95–96. (In Russian).

6. Adi Shamir. How to share a secret. Communications of the ACM. 1979, 22(11), pp. 612–613.

7. Miller D./ Blockchain and the internet of Things in the industrial sector IT Professional, (2018), 20 (3), pp. 15-18.

8. Fiaidhi J., Mohammed S., Mohammed S. EDI with blockchain as an enabler for extreme automation IT Professional, 2018, 20 (4), pp. 66-72.

9. Johnson N. F., Jajodia S. «Steganalysis of Images Created Using Current Steganography Software», Proceedings of the 2nd Information Hiding Workshop, April 1998, p. 276.

10. L. Kan, Y. Wei, A. Hafiz Muhammad, W. Siyuan, G. Linchao, H. Kai A multiple blockchains architecture on interblockchain communication 2018 IEEE International Conference on Software Quality, Reliability and Security Companion (QRS-C), 2018, pp. 139–145.

11. M. Samaniego, R. Deters Blockchain as a service for IoT 2016 IEEE International Conference on Internet of Things (iThings) and IEEE Green Computing and Communications (GreenCom) and IEEE Cyber, Physical and Social Computing (CPSCom) and IEEE Smart Data (SmartData), 2016, pp. 433-436.

12. Ogiela M. R., Ogiela U. Linguistic cryptographic threshold schemes International Journal of Future Generation Communication and Networking, 2009, 1 (2), pp. 33–40.

13. O. Cetin dan A. T. Ozocerite, "A new steganography algorithm based on color histograms for data embedding into raw video streams," Computers & Security. 2009, vol. XXVIII, no. 7, pp. 670–682.