# Synthesis of discrete devices of realization of systems of the functions of algebra of logic (FAL), program methods (by means of modular LOGICAL-NUMERICAL formulas).
# Functional diagnosing of discrete devices of a special purpose (by means of NUMERICAL codes).
# Control and ENSURING of providing the integrity of data (by means of CRYPTOCODE designs): communication systems, digital storages of data, global navigation satellite systems (GNSS).
# Electronic document management systems (METHODOLOGY).
Biography
In 1995 the dissertation of Candidate of Engineering Sciences is defended: "Technique of a parallelizing of complicated operations in specialized calculators at a problem-oriented data representation". In
In 2005 the dissertation of the Doctor of Engineering is defended: "Modular arithmetics of parallel logical evaluations and its applications to information processing in the automized control systems".
Full professor since 2009.
Scientific schools: the academician of the Kazakhstan national academy of sciences professor Amerbaev V. M. (the Moscow state institute of electronic engineering (engineering university), Institute of problems of projection in microelectronics of the Russian Academy of Science), professor Chervjakov N. I. (the Stavropol state university), professor Maljugin V. D. (Institute of problems of control of the Russian Academy of Science), professor Tsimbal V. A. (institute of engineering physics, Moscow–Serpukhov).
AMS, IEEE member since 2012.
Main publications:
Finko O. A., Modular arithmetics of parallel logic evaluations, Institute of Control Sciences of the Russian Academy of Sciences, Moscow, 2003, 224 pp.
Finko O. A., “Large Systems of Boolean Functions: Realization by Modular Arithmetic Methods”, Automation and Remote Control, 65:6 (June 2004), 871–892
Finko O. A., “Modular Forms of Systems of k-valued Functions of the Algebra of Logic”, Automation and Remote Control, 66:7 (2005), 1081–1100
Tkachenko, A. V. and Finko, O. A., “Synthesis
and transformation of complex structure codes”, Automation and Remote Control, 1995, no. 5
O. Finko, “Large systems of boolean functions: realization by modular arithmetic methods”, Autom. Remote Control, 65:6 (2004), 871–892
2.
Ryabinin J., Finko O., “Some Principles of Building Steganographic Communication Networks”, In: Choraś M., Choraś R.S., Kurzyński M., Trajdos P., Pejaś J., Hyla T. (eds) Progress in Image Processing, Pattern Recognition and Communication Systems. CORES 2021, IP&C 2021, ACS 2021. Lecture Notes in Networks and Systems, vol 255. Springer, Cham., Lecture Notes in Networks and Systems, 255 (2022), 3-24
S. A. Dichenko, O. A. Finko, “Controlling and Restoring the Integrity of Multi-Dimensional Data Arrays through Cryptocode Constructs”, Programming and Computer Software, 47:6 (2021), 415-425
D. V. Samoylenko, M. A. Eremeev, O. A. Finko, “A method of providing the integrity of information in the group of robotic engineering complexes based on crypt-code constructions”, Automatic Control and Computer Sciences, 51:8 (2017), 965–971
Finko O., Dichenko S., “Secure Pseudo-Random Linear Binary Sequences Generators Based on Arithmetic Polynoms”, Soft Computing in Computer and Information Science. Advances in Intelligent Systems and Computing (Pomeranian Univ Technol, Fac Comp Sci, Miedzyzdroje, POLAND, OCT 22-24, 2014), 342, eds. Wiliński A., Fray I., Pejaś J., Springer, Cham, 2015, 279–290
O. Finko, “Modular forms of systems of $k$-valued functions of the algebra of logic”, Autom. Remote Control, 66:7 (2005), 1081–1100
10.
N. N. Kramskoi, A. O. Romashkevich, D. I. Tali, O. A. Finko, “Model avtomatizirovannoi sistemy elektronnogo dokumentooborota, funktsioniruyuschei v usloviyakh veroyatnoi komprometatsii klyuchei podpisi, osnovannaya na ierarkhicheskoi dekompozitsii
doverennykh sred khraneniya”, Informatsionnye tekhnologii, 2024, no. 1, ??-?? (to appear)
11.
Kramskoi, N.; Kurakin A.; Romashkevich, A.; Dmitriy Tali D.; Finko, O., “Hierarchical Model of Automated Document Management System for Railway Transport Sustainable to Compromising of Signature Keys”, Software Engineering Application in Systems Design. CoMeSySo 2023, Signature Keys / Software Engineering Application in Systems Design. CoMeSySo 2023. Lecture Notes in Networks and Systems, 2023, ??? (to appear)
12.
Ryabinin, J., Finko, O., Kurakin, A., Kramskoi, N., “Increasing of Throughput of a Steganographic Communication Channel for Secured Telecom Networks of Railway Transport Based on Multialphabet Coding Method.”, In: Silhavy, R., Silhavy, P. (eds) Networks and Systems in Cybernetics. CSOC 2023., Lecture Notes in Networks and Systems, Springer, Cham., 2, no. 723, 2023, 546–556
Tali D.I., Finko O.A., “Cryptographic Recursive Control of Integrity of Metadata Electronic Documents. Part 3. Application methodology”, Voprosy kiberbezopasnosti, 41:1 (2021), 57-68
16.
Tali D.I. , Finko O.A., “Cryptographic Recursive Control of Integrity of Metadata Electronic Documents. Part 4. Evaluation of Results”, Voprosy kiberbezopasnosti, 42:2 (2021), 37-50 (to appear)
17.
S. S. Karpov, Yu. E. Ryabinin, O. A.Finko, “Obespechenie tselostnosti dannykh, peredavaemykh po kanalam svyazi virtualnykh chastnykh setei”, Voprosy kiberbezopasnosti, 4:44 (2021), 81-97 (Published online)
D. V. Samoylenko, M. A. Eremeev, O. A. Finko, “The increase of information survivability the group of robotic systems methods of modular arithmetic”, H&ES Research, 10:2 (2018), 62-77
28.
D. V. Samoylenko, M. A. Eremeev, O. A. Finko, S. A. Dichenko, “Parallel linear generator of multivalued pseudorandom sequences with operation errors control”, SPIIRAS Proceedings, 59:4 (2018), 31-64URL
S. Dichenko , O. Finko, “Cryptographic Pascal Triangle for Control of Data Integrity”, Proceedings Regional Informatics and Information Security (St. Petersburg, 24-26 October 2018), 5, SPOISU, St. Petersburg, 2018, 127-132
D. V. Samoylenko, O. A. Finko, M. A. Eremeev, “Distributed processing and data protection in the group of complexes with unmanned aerial vehicles”, Radio communication theory and equipment, 2017, no. 4, 93-100
34.
Ju. E. Ryabinin. O. A. Finko, “Mathematical model of hidden, noiseproof information transfer provided in the modular code”, Science. Innovations. Technologies, 2017, no. 2, 53-62
35.
D. V. Samoilenko, M. A. Eremeev, O. A. Finko, “Raspredelënnaya obrabotka i zaschita informatsii v gruppirovke kompleksov sbespilotnymi letatelnymi apparatami”, Aktualnye problemy zaschity i bezopasnosti: Trudy XX Vserossiiskoi nauchno-prakticheskoi konferentsii RARAN (Sankt-Peterburg, 3–6 aprelya 2017 g.), 1, eds. akad. RARAN, d.t.n., prof. V.A. Petrov, chlen-kor. RAN, akad. RARAN, d.t.n., prof. M.V. Silnikov, so, FGBU «Rossiiskaya akademiya raketnykh i artilleriiskikh nauk», Moskva, 2017, 306
36.
D. V. Samoylenko, O. A. Finko, “Noise immunity of data transmission in a radio channel robotic complexes based on polynomial residue classes”, H&ES Research, 8:3 (2016), 49-55
N. I. Eliseev, O. A. Finko, “Theoretical aspects of development of electronic documents circulation’s system of the Ministry of Defence of the Russian Federation”, Voennaya mysl, 2015, 55–63
41.
N. I. Eliseev, O. A. Finko, “Subsystem of information quality remote authentication in electronic document management systems”, Control Sciences, 3 (2014), 68–73
S. Dichenko , O. Finko, “Secure pseudorandom linear sequences generators, based on arithmetic polynoms for protected communication systems”, Nonlinear World, 2013, no. 9, 632–645 (to appear)
46.
D. V. Samoylenko, O. A. Finko, “Imitation proof data transmition in protected systems of one-way communication by means of polynomial residue classes”, Nonlinear World, 2013, no. 9, 647 – 658
D. V. Samoylenko, O. A. Finko, “Cryptographic system in polynomial class deduction for channel with noise and imitating violator”, Radio communication theory and equipment, 2010, no. 4, 39–44
49.
D. V. Samoylenko, O. A. Finko, “Cryptographic system is a parallel multi encryption polynomial residue classes for channels with noise and simulate an attacker”, Proceedings of the Fifth international conference “Parallel computing and control problems”. PACO' 2010 (October 26-28, 2010, Moscow, Russia), Institute of Control Sciences Academician VA Trapeznikov, Moscow, 2010, 1243–1258
DICHENKO, S. A. and ELISEEV, N. I. and FINKO, O. A. and PETLEVANYJ, A. A. and SAMOYLENKO, D. V., Patent RU 2620730 - C1. Method of secured transmission of encrypted information over communication channels, Web of Science, 2017
104.
PETLEVANNYJ, A. A. and SAMOYLENKO, D. V. and DICHENKO, S. A. and KISHKIN, S. A. and FINKO, O. A., Patent RU 2634201 - C1. Device for spoofing resistant coding and decoding information with excessive systematic codes, Web of Science, 2017
105.
ELISEEV, N. I. and FINKO, O. A., Patent RU 2623899 - C1. System of protected electronic flow of documents, Web of Science, 2017
106.
Savin, S. V. and Finko, O. A. and Eliseev, N. I., System for monitoring integrity of logs of maintained data records, has distribution key storage unit connected to input of foreign key switch unit, and internal key switching blocks outputs connected to hash code forming block inputs, Patent RU 2637486 C2, 2017
107.
Eliseev, N. I. and Finko, O. A. et al., Method for multi-level monitoring of integrity of electronic documents, involves creating intermediate electronic document file with original format-invariant image of source text for representing place-transition net, Patent RU 2637482 C2., 2017
108.
ELISEEV, N. I. and FINKO, O. A., Patent RU 2591655 - C1. Method for checking integrity and authenticity of electronic documents in text format stored as hard copy, Web of Science, 2016
109.
DICHENKO, S. A. et al., Patent RU 2579991 - C1. Self-checking special-purpose computer of parallel implementation boolean function systems, Web of Science, 2016
110.
VISHNEVSKY, A. K. and FINKO, O. A., Patent RU164166-U1. Logical-arithmetical matrix with error checking programmed configuration has inputs that are connected to output register, such that inputs and outputs are connected to control input of register storing values of Boolean functions, Web of Science, 2016
111.
DICHENKO, S. A. and VISHNEVSKII, A. K. and FINKO, O. A., Patent RU 2485575 - C1. Self-checking special-purpose computer of boolean function systems comprises memory units, adders, multiplexers, logic elements AND and NOR, Web of Science, 2013
112.
VISHNEVSKII, A. K. and DICHENKO, S. A. et al., Patent RU 2461868 - C1. Arithmetic computer of systems of boolean functions comprises 2^k memory units, Web of Science, 2012
113.
SULGIN, S. M. and FINKO, O. A. et al., Patent RU 2417405 -C2. Self-checking modular computer of boolean function systems, has a conjunction unit, two memory units, two adders, a unit for calculating the modulo residue, a NOR element, an AND element and memory register, Web of Science, 2011