Models of Blockchain Application in Government Information Systems

The purpose of the article is to study and model certain aspects (methods, algorithms for processing applications) of introducing blockchain technology into individual elements of state information systems. To achieve this goal, the following issues are sequentially considered in the article: analysis of the technical capabilities of blockchain, analysis of algorithms for processing applications on the state portal, study of the technological features of deploying a blockchain network to improve the efficiency of service provision, development of analytical relationships for studying the dependence of processing time, development of a simulation model for research processing time probabilistic characteristics. The article proposes a model for the application of blockchain technology in public information systems, for example, on the portal of public services, taking into account the large number of authorities involved in the process.  

1. Gosuslugi. (in Russ.) URL: https://www.gosuslugi.ru [Accessed 20th December 2022]

2. Zaramenskikh E. Digital Transformation of Government Services. Государство и бизнес. Proceedings of the XIII International Scientific-Practical Conference on Current Trends and Problems of Economic Development, 21‒22 April 2021, Saint Petersburg, Russia. Saint-Petersburg: North-West Institute of Management of RANEPA Publ.; 2021. PP. 23‒32. (in Russ.)

3. Fujitsu Services. Government as a Platform. 2015. URL: https://www.fujitsu.com/uk/Images/government-as-a-platform.pdf [Accessed 20th December 2022]

4. TAdviser. Interagency Electronic Interaction System. 2022. (in Russ.) URL: tadviser.ru/index.php/Продукт:Система_межведомственного_электронного_взаимодействия_(СМЭВ) [Accessed 20th December 2022]

5. Spirkina A.V., Aptrieva E.A., Elagin V.S., Shvidkiy A.A., Savelieva A.A. Approaches to Modeling Blockchain Systems. Proceedings of the 12th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops, ICUMT, 05–07 October 2020, Brno, Czech Republic. IEEE; 2020. p.242‒247. DOI:10.1109/ICUMT51630.2020.9222437

6. Elagin V.S., Spirkina A.V., Vladyko A.G., Ivanov E.I., Pomogalova A.V., Aptrieva E.A. The Main Network Characteristics of Blockchain Traffic and Modeling Approaches. T-Comm. 2020;14(4):39‒45. (in Russ.) DOI:10.36724/2072-8735-2020-14-4-39-45

7. Vladyko A.G., Spirkina A.V., Elagin V. S., Belozertsev I.A., Aptrieva E.A. Blockchain Models to Improve the Service Security on Board Communications. Proceedings of the Systems of Signals Generating and Processing in the Field of on Board Communications, 19–20 March 2020, Moscow, Russia. IEEE; 2020. p.9078572. DOI:10.1109/IEEECONF48371.2020.9078572

8. Memon R.A., Li J.P, Ahmed J. Simulation Model for Blockchain Systems Using Queuing Theory. Electronics. 2019;8(2):234. DOI:10.3390/electronics8020234

9. Makolkina M., Koucheryavy A., Paramonov A. Investigation of Traffic Pattern for the Augmented Reality Applications. Proceedings of the 15th IFIP WG 6.2 International Conference on Wired/Wireless Internet Communications, 21–23 June 2017, St. Petersburg, Russia. Lecture Notes in Computer Science, vol.10372. p.233‒246. Cham: Springer; 2017. DOI:10.1007/978-3-319-61382-6_19

10. Etherscan. Ropsten Testnet Explorer. URL: https://ropsten.etherscan.io [Accessed 20th June 2022]