DEHypGpOls: a genetic programming with evolutionary hyperparameter optimization and its application for stock market trend prediction
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- @Article{ari:2023:SC,
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author = "Davut Ari and Baris Baykant Alagoz",
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title = "{DEHypGpOls:} a genetic programming with evolutionary
hyperparameter optimization and its application for
stock market trend prediction",
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journal = "Soft Computing",
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year = "2023",
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volume = "27",
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number = "5",
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pages = "2553--2574",
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month = mar,
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keywords = "genetic algorithms, genetic programming, Stock market
prediction, Stock price, Hyperparameter optimization,
Trend prediction",
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ISSN = "1432-7643",
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URL = "https://rdcu.be/daFKI",
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URL = "http://link.springer.com/article/10.1007/s00500-022-07571-1",
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DOI = "doi:10.1007/s00500-022-07571-1",
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size = "22 pages",
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abstract = "Stock markets are a popular kind of financial markets
because of the possibility of bringing high revenues to
their investors. To reduce risk factors for investors,
intelligent and automated stock market forecast tools
are developed by using computational intelligence
techniques. This study presents a hyperparameter
optimal genetic programming-based forecast model
generation algorithm for a-day-ahead prediction of
stock market index trends. To obtain an optimal
forecast model from the modeling dataset, a
differential evolution (DE) algorithm is employed to
optimize hyperparameters of the genetic programming
orthogonal least square (GpOls) algorithm. Thus,
evolution of GpOls agents within the hyperparameter
search space enables adaptation of the GpOls algorithm
for the modeling dataset. This evolutionary
hyperparameter optimization technique can enhance the
data-driven modeling performance of the GpOls algorithm
and allow the optimal autotuning of user-defined
parameters. In the current study, the proposed DE-based
hyper-GpOls (DEHypGpOls) algorithm is used to generate
forecaster models for prediction of a-day-ahead trend
prediction for the Istanbul Stock Exchange 100 (ISE100)
and the Borsa Istanbul 100 (BIST100) indexes. In this
experimental study, daily trend data from ISE100 and
BIST100 and seven other international stock markets are
used to generate a-day-ahead trend forecaster models.
Experimental studies on 4 different time slots of stock
market index datasets demonstrated that the forecast
models of the DEHypGpOls algorithm could provide 57.87
percent average accuracy in buy-sell recommendations.
The market investment simulations with these datasets
showed that daily investments to the ISE100 and BIST100
indexes according to buy or sell signals of the
forecast model of DEHypGpOls could provide 4.8 percent
more average income compared to the average income of a
long-term investment strategy.",
- }
Genetic Programming entries for
Davut Ari
Baris Baykant Alagoz
Citations