Predictive intraday correlations in stable and volatile market environments: Evidence from deep learning
Standard methods and theories in finance can be ill-equipped to capture highly non-linear interactions in financial prediction problems based on large-scale datasets, with deep learning offering a way to gain insights into correlations in markets as complex systems. In this paper, we apply deep lear...
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Veröffentlicht in: | Physica A 2020-06, Vol.547, p.124392, Article 124392 |
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Sprache: | eng |
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Zusammenfassung: | Standard methods and theories in finance can be ill-equipped to capture highly non-linear interactions in financial prediction problems based on large-scale datasets, with deep learning offering a way to gain insights into correlations in markets as complex systems. In this paper, we apply deep learning to econometrically constructed gradients to learn and exploit lagged correlations among S&P 500 stocks to compare model behaviour in stable and volatile market environments, and under the exclusion of target stock information for predictions. In order to measure the effect of time horizons, we predict intraday and daily stock price movements in varying interval lengths and gauge the complexity of the problem at hand with a modification of our model architecture. Our findings show that accuracies, while remaining significant and demonstrating the exploitability of lagged correlations in stock markets, decrease with shorter prediction horizons. We discuss implications for modern finance theory and our work’s applicability as an investigative tool for portfolio managers. Lastly, we show that our model’s performance is consistent in volatile markets by exposing it to the environment of the recent financial crisis of 2007/2008.
•Gradient-based trend forecasting is applied to stable and volatile markets.•Longer prediction horizons lead to more accurate trend change predictions.•Time-delayed correlations are shown to hold in financial crisis scenarios.•Effects on economic hypotheses and risk diversification are discussed. |
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ISSN: | 0378-4371 1873-2119 |
DOI: | 10.1016/j.physa.2020.124392 |