Multi-step-ahead stock price index forecasting using long short-term memory model with multivariate empirical mode decomposition

•MEMD- LSTM model for multi-step ahead stock price forecasting was built.•Multi-step ahead forecasting was based on the multiple-input multiple-output strategy.•MEMD was employed to decompose the original time series without information loss.•The proposed model demonstrated its superiority than othe...

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Bibliographic Details
Published in:Information sciences Vol. 607; pp. 297 - 321
Main Authors: Deng, Changrui, Huang, Yanmei, Hasan, Najmul, Bao, Yukun
Format: Journal Article
Language:English
Published: Elsevier Inc 01.08.2022
Subjects:
Long short-term memory
Multi-step-ahead forecasting
Multivariate empirical mode decomposition
Orthogonal array tuning method
Stock price index
Long short-term memory
Stock price index
Multi-step-ahead forecasting
Orthogonal array tuning method
Multivariate empirical mode decomposition
ISSN:0020-0255, 1872-6291
Online Access:Get full text
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Summary:•MEMD- LSTM model for multi-step ahead stock price forecasting was built.•Multi-step ahead forecasting was based on the multiple-input multiple-output strategy.•MEMD was employed to decompose the original time series without information loss.•The proposed model demonstrated its superiority than other machine learning models.•The methodology goes well beyond straightforward application of the stock market. Accurate and reliable multi-step-ahead forecasting of stock price indexes over long-term future trends is challenging for capital investors and decision-makers. This study developed a hybrid stock price index forecasting modelling framework using Long Short-Term Memory (LSTM) with Multivariate Empirical Mode Decomposition (MEMD), which can capture the inherent features of the complex dynamics of stock price index time series. In conjunction with time–frequency analysis and deep learning algorithms, the proposed modelling framework implemented multi-step-ahead forecasting for stock price indexes using a multiple-input multiple-output (MIMO) strategy, where MEMD was first employed to simultaneously decompose the relevant features of the stock price index. Then LSTM was used to train the forecasting model by using the components extracted by MEMD and performing multi-step-ahead forecasting of the closing price of the stock price index. The hyperparameters of the LSTM model were optimized using an orthogonal array tuning method (OATM) based on the Taguchi design of experiments for enhancing the performance of prediction. Three real-world datasets were used for model validation from three exchange markets including Standard & Poor 500 index (SPX), Shanghai Stock Exchange (SSE), and Hang Seng Index (HSI). The results of the experiments suggested that the proposed hybrid model outperforms the benchmark models and improves the accuracy of multi-step-ahead forecasting.
ISSN:0020-0255
1872-6291
DOI:10.1016/j.ins.2022.05.088