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1. Modelling bid-ask spread conditional distributions using hierarchical correlation reconstruction

Author

Duda, Jarosław, Syrek, Robert, and Gurgul, Henryk

Subjects
Quantitative Finance - Trading and Market Microstructure, Computer Science - Machine Learning, Quantitative Finance - Statistical Finance, Statistics - Machine Learning
Abstract

While we would like to predict exact values, available incomplete information is rarely sufficient - usually allowing only to predict conditional probability distributions. This article discusses hierarchical correlation reconstruction (HCR) methodology for such prediction on example of usually unavailable bid-ask spreads, predicted from more accessible data like closing price, volume, high/low price, returns. In HCR methodology we first normalize marginal distributions to nearly uniform like in copula theory. Then we model (joint) densities as linear combinations of orthonormal polynomials, getting its decomposition into (mixed) moments. Then here we model each moment (separately) of predicted variable as a linear combination of mixed moments of known variables using least squares linear regression - getting accurate description with interpretable coefficients describing linear relations between moments. Combining such predicted moments we get predicted density as a polynomial, for which we can e.g. calculate expected value, but also variance to evaluate uncertainty of such prediction, or we can use the entire distribution e.g. for more accurate further calculations or generating random values. There were performed 10-fold cross-validation log-likelihood tests for 22 DAX companies, leading to very accurate predictions, especially when using individual models for each company as there were found large differences between their behaviors. Additional advantage of the discussed methodology is being computationally inexpensive, finding and evaluation a model with hundreds of parameters and thousands of data points takes a second on a laptop., Comment: 10 pages, 7 figures

Published
2019

2. Mutual information between the main foreign subindices: The application of copula entropy around WHO’s declaration date at the time of the COVID-19 pandemic.

Author

Gurgul, Henryk and Syrek, Robert

Subjects
ENTROPY, COVID-19 pandemic, INFORMATION retrieval, STATISTICAL correlation
Abstract

The objective of this article is to investigate the dependencies between selected European subindices before and during the COVID-19 pandemic. Research Design & Methods: The main analysis was quantitative. We used copula entropy and Pearson’s correlation. We considered the closing prices of sectoral indices from France (CAC sectors), Germany (DAX sectors), the UK (FTSE sectors), and the US (SP sectors), along with the main indices from these countries, that is CAC40, DAX, SP500, and FTSE100 (we collected the data from the database investing.com for the period from 4 January 2017 to 30 March 2023). We performed all analyses using R along with supplementary packages. Findings: When it comes to indications of the strength of dependence before and after the event (the outbreak of the COVID-19 pandemic) in relation to mutual information (delta) and linear correlation, we saw the biggest differences for the German market. For the DAX sectors, linear correlation underestimates post-event dependencies. The dependencies for other countries were similar on average. For half of the sectors (all markets), we recorded an increase in dependence after the event. A sector where we recorded growth in all countries was the TECH sector. Implications & Recommendations: The dependence measurement using mutual information expressed in terms of copulas has many advantages. It is not limited to measuring linear correlations. It can also capture a nonlinear correlation. Furthermore, it not only measures the dependence degree, but also considers the dependence structure, which is more than a correlation. Moreover, there was no assumption about the ellipticity of marginal and joint distribution. This dependence measure even allows for the modelling of the dependence of variables with different cumulative distribution functions. Contribution & Value Added: The novelty of this article is that it compares the results of dependence measurements by linear correlations and mutual information expressed in terms of copula entropy. Considering the indices and subindices of the main European stock markets, when both measures of dependence were used, we obtained significantly different results in both subperiods under investigation (i.e. before and after March 11, 2020). [ABSTRACT FROM AUTHOR]

Published
2024
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3. Contagion between selected European indexes during the Covid-19 pandemic.

Author

Gurgul, Henryk and Syrek, Robert

Subjects
COVID-19 pandemic, PRICES, EMERGING markets, COVID-19
Abstract

The main aim of this study is to examine dynamic dependence and proof of contagion during the Covid-2019 pandemic. The empirical data are daily prices from six European indexes. The FTSE, DAX and CAC indexes represent the largest and most developed stock markets in Europe, while the Austrian ATX index represents small developed markets. The WIG and BUX indexes represent emerging European markets. This empirical study, based on the Dynamic Conditional Correlation model, which is applied to different pairs of indexes, aims to convince the reader of the increase in the correlation between the time of the pandemic (after 30 December 2019) and the period before the beginning of the pandemic. For all pairs, the mean value of the conditional correlations in the pre-Covid period was statistically below the values in the Covid period. The results indicate contagion in Europe after the outbreak of the Covid-2019 pandemic. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Multi-feature evaluation of financial contagion

Author

Duda, Jarosław, Gurgul, Henryk, and Syrek, Robert

Subjects
Contagion, Financial contagion, principal component analysis, Autoregressive conditional heteroskedasticity, Principal component analysis, 0211 other engineering and technologies, 02 engineering and technology, Management Science and Operations Research, hierarchical correlation reconstruction/HCR, Article, conditional correlation, Moving average, Joint probability distribution, 0502 economics and business, Econometrics, G11, Nonstationarity analysis, Mathematics, 050208 finance, 021103 operations research, Covariance matrix, feature extraction, G15, 05 social sciences, Conditional correlation, Univariate, nonstationarity analysis, contagion, Skewness, Kurtosis, Feature extraction, Hierarchical correlation reconstruction/HCR, G01
Abstract

Financial contagion refers to the spread of market turmoils, for example from one country or index to another country or another index. It is standardly assessed by modelling the evolution of the correlation matrix, for example of returns, usually after removing univariate dynamics with the GARCH model. However, significant events like crises visible in one financial market are usually reflected in other financial markets/countries simultaneously in several dimensions, i.e., in general, entire distributions of returns in other markets are affected. These distributions are determined/described by their expected value, variance, skewness, kurtosis and other statistics that determine the shape of the distribution function of returns, which can be based on higher (mixed) moments. These descriptive statistics are not constant over time, and, moreover, they can interreact within the given market and among the markets over time. In this article we propose, and use for the daily values of five indexes (CAC40, DAX30, DJIA, FTSE250 and WIG20) over the time period 2006–2017, a new, simple and computationally inexpensive methodology to automatically extend contagion evaluation from the evolution of the correlation matrix to the evolution of multiple higher mixed moments as well. Specifically, the joint distribution of normalized variables for each pair of indexes is modeled as a polynomial with time evolving coefficients estimated using an exponential moving average. As we can obtain any arbitrary number of evolving mixed moments this way, its dimensionality reduction using PCA (principal component analysis) is also discussed, obtaining a lower number of dominating and relatively independent features, which can each be interpreted through a polynomial that describes the corresponding perturbation of joint distribution. We obtain features that describe the interrelations among stock markets in several dimensions and that provide information about the current stage of crisis and the strength of the contagion process.

Published
2021

6. Price duration versus trading volume in high-frequency data for selected DAX companies

Author

Gurgul, Henryk, Syrek, Robert, and Mitterer, Christoph

Abstract

The properties of the time series of durations between consecutive trades of a particular stock have been studied by many contributors in the literature of financial econometrics. Among them are highly prominent scientists like Engle (2000) and Gourieroux and Jasiak (2001). The importance of this topic, accompanied by the growing availability of (ultra-)high-frequency data, has prompted an increase of contributions in recent years. Intensive research based on high-frequency data has several financial motivations. First of all, it is linked with microstructure theory. Secondly, it contributes to the literature on stochastic time deformation. But the most important need for research on the dynamics of trade durations is the necessity to manage liquidity risk. The reason is that durations between the following trades are a widely accepted measures of market liquidity. In addition, their volatility reflects the liquidity risk.

Published
2017

8. Testing of Dependencies between Stock Returns and Trading Volume by High Frequency Data

Author

Syrek, Robert and Gurgul, Piotr

Subjects
trading volume, dynamic interrelations, copulas, fractional cointegration, realized volatility, jel:G15, jel:C32, lcsh:HD72-88, lcsh:Economic growth, development, planning
Abstract

This paper is concerned with a dependence analysis of returns, return volatility and trading volume for five companies listed on the Vienna Stock Exchange and five from the Warsaw Stock Exchange. Taking into account high frequency data for these companies, tests based on a comparison of Bernstein copula densities using the Hellinger distance were conducted. The paper presents some patterns of causal and other relationships between stock returns, realized volatility and expected and unexpected trading volume. There is a linear causality running from realized volatility to expected trading volume, and a lack of nonlinear dependence in the opposite direction. The authors detected strong linear and nonlinear causality from stock returns to expected trading volume. They did not find causality running in the opposite direction. In addition, the existence of fractional cointegration was examined. Despite the equality of the long memory parameters of realized volatility and trading volumes, they do not move together in the long term horizon. Članek obravnava analizo odvisnosti med donosnostjo, nihajnostjo in obsegom trgovanja z delnicami petih podjetij, ki kotirajo na dunajski borzi, in petih podjetij, ki kotirajo na varšavski borzi. Na podlagi hitrih podatkov za ta podjetja so bili narejeni preizkusi, ki temeljijo na primerjavi Bernsteinovih kopul gostot z uporabo Hellingerjeve distance. Članek predstavlja nekaj vzorcev vzročnih in ostalih povezav med donosnostjo delnic, realizirano nihajnostjo ter pričakovanim in nepričakovanim obsegom trgovanja. Obstaja linearna povezava med realizirano nihajnostjo in pričakovanim obsegom trgovanja, ni pa nelinearne povezave v nasprotni smeri. Avtorja sta ugotovila močno linearno in nelinearno povezavo med donosnostjo obveznic in pričakovanim obsegom trgovanja. Nista pa opazila povezave v nasprotni smeri. Preverila sta tudi, ali obstaja frakcijska kointegracija. Kljub enakovrednosti parametrov realizirane nihajnosti in obsega trgovanja v daljšem obdobju se ti parametri v daljših časovnih obdobjih ne gibljejo enako.

Published
2013

9. Dynamic Dependence Structures Analysis of Some Stock Market Indicies

Author

Syrek, Robert

Subjects
przegląd literatury, literature review, analiza zależności, stock market indexes, dependency analysis, indeks giełdowy, model przełącznikowy, switching model
Abstract

Modele przełącznikowe oparte na kopulach, są przydatnym narzędziem w określaniu dynamicznej struktury zależności pomiędzy zmiennymi finansowymi. Badania przeprowadzone z wykorzystaniem takich modeli wskazują na istotną dynamiczną i asymetryczną zależność pomiędzy stopami zwrotu giełdowych rynków akcji. Pomimo globalnego wpływu giełdy amerykańskiej na zachowanie giełd europejskich (wykazano najsilniejszą zależność giełdy niemieckiej i amerykańskiej mierzoną współczynnikiem korelacji Kendalla, obliczonym z modelu opartego na kopulach), analiza współczynników zależności w podziale na okresy względnego spokoju na giełdach i okresy wzrostów/spadków cen ujawnia najsilniejsze powiązania pomiędzy wiodącymi indeksami europejskimi. Zdecydowanie najsilniejsze powiązania wykazuje giełda niemiecka i angielska w okresach ożywienia na rynkach giełda niemiecka i francuska w okresach względnego spokoju. In this paper we use dynamic copula models to analyze the dependence structures of some stock market indices. The investigation is performed using weekly stock returns. The ARMA-GARCH models with heavy tailed distributions are used to examine stock market returns individually. The asymmetry and dynamics of dependencies is modelled using copulas and regime-switching approach. The empirical analysis shows that asymmetric, time-varying dependence patterns can be captured by using copula based regime switching models.

Published
2013

10. Testing of Dependencies between Stock Returns and Trading Volume by High Frequency Data.

Author

Gurgul, Piotr and Syrek, Robert

Subjects
*MARKET volatility, *STOCK exchanges, *SECURITIES trading volume, *COINTEGRATION, *NONLINEAR analysis, *SECURITIES
Abstract

This paper is concerned with a dependence analysis of returns, return volatility and trading volume for five companies listed on the Vienna Stock Exchange and five from theWarsaw Stock Exchange. Taking into account high frequency data for these companies, tests based on a comparison of Bernstein copula densities using the Hellinger distance were conducted. The paper presents some patterns of causal and other relationships between stock returns, realized volatility and expected and unexpected trading volume. There is a linear causality running fromrealized volatility to expected trading volume, and a lack of nonlinear dependence in the opposite direction. The authors detected strong linear and nonlinear causality from stock returns to expected trading volume. They did not find causality running in the opposite direction. In addition, the existence of fractional cointegration was examined. Despite the equality of the long memory parameters of realized volatility and trading volumes, they do not move together in the long term horizon. [ABSTRACT FROM AUTHOR]

Published
2013

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