Article 15318

Title of the article



Finogeev Aleksey Germanovich, Doctor of engineering sciences, professor, sub-department of CAD, Penza State University (40 Krasnaya street, Penza, Russia), E-mail:
Gamidullaeva Leyla Ayvarovna, Candidate of economic sciences, associate professor, sub-department of management and economic security, Penza State University (40 Krasnaya street, Penza, Russia), E-mail:
Vasin Sergey Mikhaylovich, Doctor of economic sciences, professor, sub-department of economics and international relations, Penza State University (40 Krasnaya street, Penza, Russia), E-mail:
Finogeev Anton Alekseevich, Candidate of engineering sciences, associate professor, sub-department of CAD, Penza State University (40 Krasnaya street, Penza, Russia), E-mail:
Pronichev Vladislav Viktorovich, Master’s degree student, Penza State University (40 Krasnaya street, Penza, Russia), E-mail:
Lychagin Kirill Anatol'evich, Postgraduate student, Penza State University (40 Krasnaya street, Penza, Russia), E-mail: 

Index UDK





Background. The growth of interaction between the participants of the innovation system is a mechanism for the development of innovative activity at various stages of the innovation process, from the emergence of the idea to the commercialization of innovation. At the same time, a high level of transaction costs of innovation activity is the main barrier that prevents effective interaction between subjects of innovation activity. The subject of the study is the organization of effective and safe interaction between participants in Russian regional innovation systems. The aim of the work is to develop a mechanism for ensuring reliable and secure interaction between participants in regional innovation systems based on the created smart contracts in the blockchain system.
Materials and methods. To reduce risks in the implementation of innovative projects, it is proposed to use distributed registry technology (blockchain), which reduces the probability of fraud on the part of dishonest participants, and excludes the need for third-party intervention by transferring its functions to an intellectual system.
Results. The technology offered by the authors allows to minimize the risks of implementing projects in the sphere of innovations, reduce the level of transaction
costs on the innovation process. This is of importance for ensuring confidential and
transparent relations between participants in innovation projects, as well as with all
stakeholders in the regions. To create smart contracts, the Ethereum block-platform
was chosen, on the basis of which components were developed for performing
transactions in contracting, creating and implementing innovations, transferring intellectual
property rights, using rights and licenses for innovation, etc. 

Key words

smart contract, blockchain, regional innovation system, transaction costs, results of intellectual activity, innovative interactions, Ethereum 

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1. Kempbell E., Lachs K. Strategicheskiy sinergizm [Strategic synergy]. Saint-Petersburg: Piter, 2004, 416 p.
2. Gamidullaeva L. A. Ekonomicheskoe vozrozhdenie Rossii [Economic revival of Russia]. 2016, no. 4 (50), pp. 74–84.
3. Vasin S. M., Gamidullaeva L. A. Innovatsii [Innovations]. 2017, no. 5 (223), pp. 34–40.
4. Finogeev A. G. Modelirovanie i issledovanie sistemno-sinergeticheskikh protsessov v informatsionnykh sredakh: monografiya [Modeling and research of system-sinergetic processes in informational spheres: monograph]. Penza: Izd-vo PGU, 2004, 223 p.
5. Finogeev A. G., Vasin S. M., Gamidullaeva L. A., Finogeev A. A. Voprosy bezopasnosti [Security issues]. 2018, no. 3. Available at: DOI 10.25136/2409-7543.0.0.26619.
6. Swan M. Blockchain: Blueprint for a New Economy. Sebastopol: O’Reilly Media, Inc., 2015, 152 p.
7. Franco P. Understanding Bitcoin: Cryptography, Engineering and Economics. New York: John Wiley & Sons, 2014, 288 p.
8. Andreas M. Mastering Bitcoin. Sebastopol: O’Reilly Media, Inc., 2014.
9. Sergey Matveev: blokcheyn obespechit uchenym spravedlivoe voznagrazhdenie [Sergey Matveev: blockchain will insure scientists fair remuneration]. Available at:
grazhdenie (accessed Jun. 10, 18).
10. Sayt kompanii Ascribe [Ascribe company site]. Available at: (accessed Jun. 10, 18).
11. Set' IPchain. Available at: (accessed Jun. 10, 18).
12. Szabo N. First Monday. 1997, 1 Sept., vol. 2, no. 9. Available at: (accessed Jun. 10, 18).
13. Tar A. Smart Contracts, Explained. Partnership Material. Available at: (accessed Jun. 10, 18).
14. Detsentralizovannye platformy dlya smart-kontraktov: vyzovy i resheniya [Decentralized platforms for smart-contracts: challenges and solutions]. Available at: (accessed Jun. 10, 18).
15. Blokcheyn platformy. Available at: (accessed Jun. 10, 18).
16. Platforma Ethereum. Available at: (accessed Jun. 10, 18).
17. Yazyk Solidity [Solidity language]. Available at: Jun. 10, 18).
18. Platforma Aeternity [Aeternity platform]. Available at: (accessed Jun. 10, 18).
19. Poon J., Thaddeus Dryja The Bitcoin Lightning Network: scalable off-chain instant payments. 2016. Available at: (accessed Jun. 10, 18).
20. Platforma Hyperledger Fabric. Available at: (accessed Jun. 10, 18).
21. Platforma Cardano [Cardano platform]. Available at: (accessed Jun. 10, 18).


Дата создания: 03.04.2019 11:17
Дата обновления: 08.04.2019 15:57