Digital instruments of monetary and prudential policy in ensuring the cybersecurity of the financial space

Keywords: e-hryvnia, monetary policy, prudential supervision, cybersecurity, CBDC, SupTech, smart contracts, financial stability, DLT, ZKP

Abstract

In the context of the unprecedented pace of digital transformation and the escalation of geopolitical risks, traditional methods of monetary regulation require a fundamental reconsideration.

Problem statement. The evolution of cyber threats – from financial fraud to complex operations involving artificial intelligence – poses significant risks to macroeconomic stability. The development of an integrated protection system based on central bank digital currencies (CBDCs) and SupTech instruments constitutes a critical prerequisite for preserving financial sovereignty, particularly for Ukraine in the context of European integration and martial law.

Unresolved aspects of the problem. The theoretical substantiation and development of practical recommendations for integrating advanced digital instruments (CBDC, artificial intelligence, distributed ledger technology (DLT), and SupTech) into monetary and prudential policy mechanisms in order to form a comprehensive cybersecurity framework for the financial sector remain insufficiently addressed.

Purpose of the article. The purpose of this article is to provide a theoretical substantiation and to develop practical recommendations for integrating modern digital instruments (such as artificial intelligence, blockchain technologies, and SupTech) into monetary and prudential policy mechanisms in order to establish a comprehensive cybersecurity system for the financial sector.

The study is grounded in a systemic approach to analysing the coordination of regulatory policies. The methodology includes comparative legal analysis (comparing the models of the e-hryvnia and the Digital Euro), structural and functional modelling (two-tier CBDC architecture), and scenario analysis to identify cyber risks (including DDoS attacks and smart contract vulnerabilities) and methods for their mitigation.

Presentation of the main material. A model of hybrid coordination has been developed, in which cybersecurity is integrated directly into the mechanism of monetary transmission. It has been demonstrated that the programmability of the e-hryvnia and the application of Zero-Knowledge Proofs (ZKP) technologies enable the automation of prudential supervision while preserving user privacy. Global case studies (China, the European Union, and the Bahamas) have been analysed, and the specific features of the Ukrainian e-hryvnia project have been identified as instruments for enhancing transparency and cyber resilience.

For the first time, it is proposed to consider a central bank digital currency not only as a means of payment but also as an active element of the cyber-prudential system, enabling the dynamic adjustment of liquidity and limits under conditions of real cyberattacks. The concept of convergence between SupTech and RegTech systems based on unified distributed ledgers has been further developed.

The proposed architectural model and cyber-risk matrix may be utilised by the National Bank of Ukraine in the finalisation of the e-hryvnia project and in the development of digital operational resilience standards in accordance with the DORA regulation.

Conclusions. It has been demonstrated that digitalisation transforms the regulator into an architect of a secure financial environment. Further research will focus on the interoperability of CBDCs across countries and the role of artificial intelligence in preventing manipulation in digital asset markets.

Downloads

Download data is not yet available.

Author Biographies

Victoria Kovalenko , Odesa National Economic University

D.Sc. in Economics, Professor

Sergii Sheludko , Pivdenny Bank PJSC

Ph.D. in Economics, Associate Professor

Olena Serhieieva , Odesa National Economic University

PhD (Economics), Associate Professor

References

IMF. (2024). Cyber Risk and Financial Stability: Growing Threats and Policy Challenges. IMF Global Financial Stability Report. Retrieved from: https://www.imf.org/en/Publications/GFSR/

Bharath, A., Paduraru, A., & Gaidosch, T. (2024). Cyber Resilience of the Central Bank Digital Currency Ecosystem. IMF Fintech Notes. Retrieved from: https://surli.cc/vbvwfa

Auer, R., & Böhme, R. (2020). The technology of retail central bank digital currency. BIS Quarterly Review, March, 85–100. Retrieved from: https://www.bis.org/publ/qtrpdf/r_qt2003j.pdf

Agur, I., Ari, A., & Dell'Ariccia, G. (2022). Designing central bank digital currencies. Journal of Monetary Economics, 125, 62–79. DOI: https://doi.org/10.1016/j.jmoneco.2021.05.002

Ferrari, M. M., Mehl, A., & Stracca, L. (2021). Central Bank Digital Currency in an Open Economy. ECB Working Paper, No. 20202488. Retrieved from: https://papers.ssrn.com/sol3/papers.cfm?abstract_id=3733463/

Bordo, M. D., & Levin, A. T. (2024). Central bank digital currency and the future of monetary policy. Journal of Financial Stability, 70, 101211. Retrieved from: https://surl.lt/ljzdgp

Rupeika-Apoga, R. (2025). Editorial-The Future of Money: Central Bank Digital Currencies, Cryptocurrencies and Stablecoins. Journal of Risk and Financial Management, 18(9), 469. DOI: https://doi.org/10.3390/jrfm18090469

Brühl, V. (2026). The potential impact of a central bank digital currency (CBDC) on the banking sector: the case of a digital euro. Eurasian Economic Review. DOI: https://doi.org/10.1007/s40822-025-00359-2

Qiaoying, D., & Wensheng, H. (2023). Digital Transformation, Monetary Policy and Risk-taking of Banks. Finance Research Letters, 55(3), 103986. DOI: https://doi.org/10.1016/j.frl.2023.103986

Stetsko, M. V. (2025). Monetary policy as a tool for ensuring the financial stability of the banking system and economic security of Ukraine. Innovative Economy, 3(103), 107-113. DOI: https://doi.org/10.37332/2309-1533.2025.2.13 [in Ukrainian]

Ninyuk, I. (2024). Digitalisation of Monetary Policy as a Factor in Ensuring Financial Stability in Ukraine. Current Issues in Economic Sciences. DOI: https://doi.org/10.5281/zenodo.14603985 [in Ukrainian]

BIS. (2025). Project Agora: exploring tokenisation of cross-border payments. Retrieved from: https://surl.li/ckbhvj

ESRB. (2024). Advancing macroprudential tools for cyber resilience – Operational policy tools. A review of national and pan European frameworks. Retrieved from: https://surl.li/gmonzm

Bank of England. (2025). Financial Stability Report – December 2025. Retrieved from: https://www.bankofengland.co.uk/financial-stability-report/2025/december-2025

Li, Y., Xia, Y., Sun, Z., & Sun, N. (2025). Does digital transformation affect systemic risk? Evidence from the banking sector in China. International Review of Financial Analysis, 102. DOI: https://doi.org/10.1016/j.irfa.2025.104137

European Parliament. (2025). Regulation (EU) 2025/2554 on digital operational resilience for the financial sector (DORA) and its Technical Standards. Retrieved from: https://surl.li/jlkiwi

Kovalenko, V. V. (2026). Transformation of policy coordination mechanisms of the National bank of Ukraine under the digitalization of the financial sector. Scientific Bulletin of the Odesa National Economic University, 1(388), 51-60. DOI: https://doi.org/10.32680/2409-9260-2026-1-338-51-60 [in Ukrainian]

Nijsse, J., & Pinto, A. (2026). Central Bank Digital Currencies: Where is the Privacy, Technology, and Anonymity? Cryptography and Security. DOI: https://doi.org/10.48550/arXiv.2602.23659

Cipollone, P. (2025). Digital euro: protecting our freedom, autonomy and security. Retrieved from: https://surl.li/jervcn

Bezpalko, I., & Bezpalko, M. (2025). Digital transformation of the financial sector: Central banks’ digital currencies as a global trend and national strategy. Efficient Economy, 1. DOI: https://doi.org/10.32702/2307-2105.2025.1.64 [in Ukrainian]

NBU. (2023). Strategy "Financial Fortress of Ukraine". Retrieved from: https://bank.gov.ua/ua/news/all/strategiya-natsionalnogo-banku-ukrayini [in Ukrainian]

WEF. (2026). Global Cybersecurity Outlook: Resilience of Financial Infrastructures under Geopolitical Threats. Geneva: WEF White Papers. Retrieved from: https://reports.weforum.org/docs/WEF_Global_Cybersecurity_Outlook_2026.pdf

Published
2026-06-30
Cited
How to Cite
Kovalenko , V., Sheludko , S., & Serhieieva , O. (2026). Digital instruments of monetary and prudential policy in ensuring the cybersecurity of the financial space. FINANCIAL AND CREDIT SYSTEMS: PROSPECTS FOR DEVELOPMENT, 2(21), 154-166. https://doi.org/10.26565/2786-4995-2026-2-12
Section
Modern macroeconomic trends and tendencies