Maksym Ivasenko
-
1 publications
-
0 downloads
-
1 views
- 173 Views
-
0 books
-
Analysis of the impact of central bank digital currency on stock markets: Dynamics and implications
Serhiy Frolov , Maksym Ivasenko , Mariia Dykha , Mykhaylo Heyenko , Viktoriia Datsenko doi: http://dx.doi.org/10.21511/bbs.18(4).2023.14Banks and Bank Systems Volume 18, 2023 Issue #4 pp. 149-168
Views: 726 Downloads: 342 TO CITE АНОТАЦІЯThe purpose of the study is to explore the influence of central bank digital currency on stock markets. To realize the purpose, the TVP-VAR model was built, which determines the impact of volatility of the CBDC attention index (CBDCAI) on the volatility of stock market indices. The study uses a time-varying vector autoregressive model that analyzes weekly data from the first week of January 2015 to the first week of July 2023. The endogenous vector to be assessed by VAR contains CBDCAI and stock market indices of different countries (France: CAC 40, The United States of America: S&P 500, Germany: DAX 40, United Kingdom: FTSE 100, China: SSEC, The Netherlands AEX 25, Switzerland: SMI 20, Japan: Nikkei 225, India: NIFTY 50, Brazil: BVSP, South Korea: KOSPI). The results of the TVP-VAR model show that compared to stock market indices, CBDCAI appeared to be relatively independent and isolated. Interdependence and mutual influence between the digital currency market of central banks and stock markets were also revealed. In addition, CBDC functions primarily as a volatility absorber rather than a source of volatility. Despite the overall ability of the CBDC market to absorb fluctuations in volatility, it may also change its function with the widespread adoption of central bank digital currencies in many countries.
-
Interaction between decentralized financial services and the traditional banking system: A comparative analysis
Serhiy Frolov , Maksym Ivasenko , Mariia Dykha , Iryna Shalyhina , Vladyslav Hrabar , Veronika Fenyves doi: http://dx.doi.org/10.21511/bbs.19(2).2024.05Banks and Bank Systems Volume 19, 2024 Issue #2 pp. 53-74
Views: 406 Downloads: 120 TO CITE АНОТАЦІЯThis paper investigates the interaction between decentralized financial services and the traditional banking system by building VAR models, conducting Granger causality tests, building impulse response functions, and performing variance analysis. To implement the model, banking indicators of the USA, India, and Great Britain were selected: the volume of commercial and industrial loans, interest rate, consumer price index, total liabilities and capital of banks, aggregate deposits, federal funds rate (for the USA), and repo rate (for India). The study examined central bank data of the specified countries from July 2018 to January 2024 with the TVL indicator, which measures the sum of all assets locked in DeFi protocols. The results of the impulse response function (IRF) for countries demonstrate different interactions between TVL and bank indicators. The US response to TVL shocks demonstrates a stimulative monetary policy, with significant Fed rate reductions and increased commercial lending to boost economic activity. In contrast, India’s monetary stimulus, marked by declining repo rates and growth in banking sector liabilities and deposits, aims to enhance economic resilience. The UK, however, adopts a conservative monetary approach, with sharp bank rate increases and mixed lending and deposit responses, prioritizing financial stability. Analysis across these nations highlights different impacts of financial indicators on TVL. In the US, the evolving relationship between TVL and bank indicators reflects the financial system’s complexity. India’s sensitivity to monetary policy, credit conditions, and inflation significantly influences TVL. In the UK, central bank decisions, particularly the bank rate, play a crucial role in financial market dynamics.
Acknowledgment
The authors appreciate the assistance in the preparation of the article provided by the University of Debrecen Program for Scientific Publication and the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.
-
4 Articles
-
4 Articles
-
1 Articles
-
1 Articles
-
1 Articles
-
1 Articles
-
1 Articles