On the forecasting of multivariate financial time series using hybridization of DCC-GARCH model and multivariate ANNs

Volatility plays a crucial role in financial markets and accurate prediction of the stock price indices is of high interest. In multivariate time series, Dynamic Conditional Correlation (DCC)-Generalized Autoregressive Conditional Heteroscedastic (GARCH) is used to model and forecast the volatility...

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Bibliographic Details
Published in:Neural computing & applications 2022-12, Vol.34 (24), p.21911-21925
Main Authors: Fatima, Samreen, Uddin, Mudassir
Format: Article
Language:English
Subjects:
Artificial Intelligence
Artificial neural networks
Autoregressive models
Computational Biology/Bioinformatics
Computational Science and Engineering
Computer Science
Correlation
Data Mining and Knowledge Discovery
Empirical analysis
Image Processing and Computer Vision
Multivariate analysis
Original Article
Pricing
Probability and Statistics in Computer Science
Root-mean-square errors
Stochastic models
Time series
Volatility
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Summary:Volatility plays a crucial role in financial markets and accurate prediction of the stock price indices is of high interest. In multivariate time series, Dynamic Conditional Correlation (DCC)-Generalized Autoregressive Conditional Heteroscedastic (GARCH) is used to model and forecast the volatility (risk) and co-movement between stock prices data. We propose multivariate artificial neural networks (MANNs) hybridized with the DCC-GARCH model to forecast the volatility of stock prices and to examine the time-varying correlation. The daily share price data of five stock markets: S&P 500 (USA), FTSE-100 (UK), KSE-100 (Pakistan), Malaysia (KLSE) and BSESN (India) covering the period from 1st, January 2013 to 17th, March 2020 are considered for empirical analysis. Moreover, the hybrid models of MANNs and DCC-GARCH are developed in two ways: (i) MANNs is provided as an input to DCC-GARCH (1,1) producing a hybrid model of DCC-GARCH(1,1)-MANNs and (ii) DCC-GARCH(1,1) model is set as an input to MANNs resulting hybrid model of MANNs-DCC-GARCH(1,1). Furthermore, the performances of the proposed models are compared with single models via the root mean square (RMSE), mean absolute error (MAE) and relative mean absolute error (RMAE). The empirical results show that DCC-GARCH (1,1)-MANNs, a parametric model, outperforms both in-sample and out-sample forecasts and helps to examine the time-varying correlation and also provides volatility forecast as well, whereas the hybrid model MANNs-DCC-GARCH (1,1) provides forecast only. Therefore, the hybrid model of DCC-GARCH (1,1)-MANNs is found suitable as compared to MANNs-DCC-GARCH(1,1) to model and forecast the stock price indices under consideration.
ISSN:0941-0643
1433-3058
DOI:10.1007/s00521-022-07631-5