Dynamic prediction of Indian stock market: an artificial neural network approach

Goel, Himanshu; Singh, Narinder Pal

doi:10.1108/ijoes-11-2020-0184

Cited by 14 publications

(10 citation statements)

References 22 publications

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“…It can detect the noise and chaos including the structural breaks, regime-switching, and, most likely the nonlinear behavior of the data series easily (Hinton, 1992; Gupta and Kashyap, 2016; Alaloul et al , 2018; Marcos et al , 2020). Moreover, the results of the studies show that the stock market prophecies are quite achievable applying AI-driven hybrid nonlinear volatility models, and, it produces better results in comparison to the benchmark GARCH model and its counterparts (Gonzalez Miranda and Burgess, 1997; Roh, 2007; Atsalakis and Valavanis, 2009; Chen et al , 2010; Guresen et al , 2011; Lahmiri and Boukadoum, 2015; Gopal and Ramasamy, 2017; Chkili and Hamdi, 2021; Goel and Singh, 2021). Though, the models depicted in the present study are restricted to boundaries such as GARCH model is more effective in forecasting short-term volatility than long-term volatility; IGARCH, FIGARCH, HYGARCH model suitability in capturing long-memory volatility; EGARCH, TGARCH, GJR-GARCH model better account asymmetrical behavior in volatility; multivariate-GARCH model appropriateness in simultaneous computing volatility of multiple assets; high frequency based multivariate heterogeneous autoregressive model suitability for longer forecast horizons, etc.…”

Section: Discussionmentioning

confidence: 99%

“…It has created the opportunity to rediscover the inter-relationship and patterns among the market variables from huge data sources (Gopal and Ramasamy, 2017). This gap is fulfilled by sophisticated computer-based artificial intelligence (AI), machine learning techniques to forecast volatility in a chaotic and noisy environment (Kaastra and Boyd, 1996; Goel and Singh, 2021).…”

Section: Introductionmentioning

confidence: 99%

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Review on volatility and return analysis including emerging developments: evidence from stock market empirics

Kashyap

2022

JM2

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Purpose This paper aims to analyze and give directions for advancing research in stock market volatility highlighting its features, structural breaks and emerging developments. This study offers a platform to research the benchmark studies to know the research gap and give directions for extending future research. Design/methodology/approach The author has performed the literature review, and, reference checking as per the snowballing approach. Firstly, the author has started with outlining and simplifying the significance of the subject area, the review illustrating the various elements along with the research gaps and emphasizing the finding. Findings This work summarizes the studies covering the volatility, its properties and structural breaks on various aspects such as techniques applied, subareas and the markets. From the review’s analysis, no study has clarified the supremacy of any model because of the different market conditions, nature of data and methodological aspects. The outcome of this research work has delivered further magnitude to research the benchmark studies for the upcoming work on stock market volatility. This paper has also proposed the hybrid volatility models combining artificial intelligence with econometric techniques to detect noise, sudden changes and chaotic information easily. Research limitations/implications The author has taken the research papers from the scholarly journal published in the English language only and the author may also consider other nonscholarly or other language journals. Originality/value To the best of the author’s knowledge, this research work highlights an updated and more comprehensive framework examining the properties and demonstrating the contemporary developments in the field of stock market volatility.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Review on volatility and return analysis including emerging developments: evidence from stock market empirics

Kashyap

2022

JM2

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“…Using BP NN modeling and Phyton tools, 9900 units of data are employed and divided into 90% training data and 10% testing data. Goel and Singh (2022) forecasted dynamics in an Indian stock market using macroeconomic indicators by ANN. In their research, authors have used MLPNN to forecast the closing price of the BSE Sensex by adding macroeconomic indicators such as IIP, CPI, LTINT, FX, and MSCI.…”

Section: Ann Based Modelmentioning

confidence: 99%

Machine intelligence in dynamical systems: \A state‐of‐art review

Sahoo

Chakraverty

2022

WIREs Data Min & Knowl

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This article is dedicated to study the impact of machine intelligence (MI) methods viz. various types of Neural models for investigating dynamical systems arising in interdisciplinary areas. Different types of artificial neural network (ANN) methods, viz., recurrent neural network, functional‐link neural network, convolutional neural network, symplectic artificial neural network, genetic algorithm neural network, and so on, are addressed by different researchers to investigate these problems. Although various traditional methods have been developed by researchers to solve these dynamical problems but the existing traditional methods may sometimes be problem dependent, require repetitions of the simulations, and fail to solve nonlinearity behavior. In this regard, neural network model based methods are more general and solutions are continuous over the given domain of integration, self‐adaptive and can be used as a black box. As such, in this article, we have reviewed and analyzed different MI methods, which are applied to investigate these problems. This article is categorized under: Technologies > Computational Intelligence Technologies > Machine Learning Application Areas > Science and Technology

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“…They built a hybrid model with the outputs of the GARCH family of models and various key factors as input variables. Goel and Singh [26] proposed a neural network that uses macroeconomic variables identified from the literature as input variables and a global stock market factor. Chandra and He [12] used innovative Bayesian neural network approaches for multi-step-ahead stock price forecasting.…”

Section: Deep Learning-based Approachesmentioning

confidence: 99%

A Hybrid Model to Predict Stock Closing Price Using Novel Features and a Fully Modified Hodrick–Prescott Filter

et al. 2022

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Forecasting stock market prices is an exciting knowledge area for investors and traders. Successful predictions lead to high financial revenues and prevent investors from market risks. This paper proposes a novel hybrid stock prediction model that improves prediction accuracy. The proposed method consists of three main components, a noise-filtering technique, novel features, and machine learning-based prediction. We used a fully modified Hodrick–Prescott filter to smooth the historical stock price data by removing the cyclic component from the time series. We propose several new features for stock price prediction, including the return of firm, return open price, return close price, change in return open price, change in return close price, and volume per total. We investigate traditional and deep machine learning approaches for prediction. Support vector regression, auto-regressive integrated moving averages, and random forests are used for conventional machine learning. Deep learning techniques comprise long short-term memory and gated recurrent units. We performed several experiments with these machine learning algorithms. Our best model achieved a prediction accuracy of 70.88%, a root-mean-square error of 0.04, and an error rate of 0.1.

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Dynamic prediction of Indian stock market: an artificial neural network approach

Cited by 14 publications

References 22 publications

Review on volatility and return analysis including emerging developments: evidence from stock market empirics

Review on volatility and return analysis including emerging developments: evidence from stock market empirics

Machine intelligence in dynamical systems: \A state‐of‐art review

A Hybrid Model to Predict Stock Closing Price Using Novel Features and a Fully Modified Hodrick–Prescott Filter

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