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Deep Learning for Stock Selection Based on High Frequency Price-Volume Data

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  • Junming Yang
  • Yaoqi Li
  • Xuanyu Chen
  • Jiahang Cao
  • Kangkang Jiang

Abstract

Training a practical and effective model for stock selection has been a greatly concerned problem in the field of artificial intelligence. Even though some of the models from previous works have achieved good performance in the U.S. market by using low-frequency data and features, training a suitable model with high-frequency stock data is still a problem worth exploring. Based on the high-frequency price data of the past several days, we construct two separate models-Convolution Neural Network and Long Short-Term Memory-which can predict the expected return rate of stocks on the current day, and select the stocks with the highest expected yield at the opening to maximize the total return. In our CNN model, we propose improvements on the CNNpred model presented by E. Hoseinzade and S. Haratizadeh in their paper which deals with low-frequency features. Such improvements enable our CNN model to exploit the convolution layer's ability to extract high-level factors and avoid excessive loss of original information at the same time. Our LSTM model utilizes Recurrent Neural Network'advantages in handling time series data. Despite considerable transaction fees due to the daily changes of our stock position, annualized net rate of return is 62.27% for our CNN model, and 50.31% for our LSTM model.

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  • Junming Yang & Yaoqi Li & Xuanyu Chen & Jiahang Cao & Kangkang Jiang, 2019. "Deep Learning for Stock Selection Based on High Frequency Price-Volume Data," Papers 1911.02502, arXiv.org.
    • Handle: RePEc:arx:papers:1911.02502
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    Cited by:

    1. Jakub Micha'nk'ow & Pawe{l} Sakowski & Robert 'Slepaczuk, 2023. "Mean Absolute Directional Loss as a New Loss Function for Machine Learning Problems in Algorithmic Investment Strategies," Papers 2309.10546, arXiv.org.

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