Machine learning classification and regression models for predicting directional changes trend reversal in FX markets
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- @Article{ADEGBOYE:2021:ESA,
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author = "Adesola Adegboye and Michael Kampouridis",
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title = "Machine learning classification and regression models
for predicting directional changes trend reversal in
{FX} markets",
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journal = "Expert Systems with Applications",
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year = "2021",
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volume = "173",
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month = "1 " # jul,
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pages = "114645",
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keywords = "genetic algorithms, genetic programming, Directional
changes, Regression, Classification, Forex/FX, Machine
learning",
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ISSN = "0957-4174",
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URL = "https://kar.kent.ac.uk/89886/1/Adegboye-INT2021_preprint.pdf",
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URL = "https://www.sciencedirect.com/science/article/pii/S0957417421000865",
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DOI = "doi:10.1016/j.eswa.2021.114645",
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code_url = "https://github.com/adesolaadegboye/SymbolicRegression",
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size = "15 pages",
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abstract = "Most forecasting algorithms in financial markets use
physical time for studying price movements, making the
flow of time discontinuous. The use of physical time
scale can make traders oblivious to significant
activities in the market, which poses a risk.
Directional changes (DC) is an alternative approach
that uses event-based time to sample data. In this
work, we propose a novel DC-based framework, which uses
machine learning algorithms to predict when a trend
will reverse. This allows traders to be in a position
to take an action before this happens and thus increase
their profitability. We combine our approach with a
novel DC-based trading strategy and perform an in-depth
investigation, by applying it to 10-min data from 20
foreign exchange markets over a 10-month period. The
total number of tested datasets is 1,000, which allows
us to argue that our results can be generalised and are
widely applicable. We compare our results to ten
benchmarks (both DC and non-DC based, such as technical
analysis and buy-and-hold). Our findings show that our
proposed approach is able to return a significantly
higher profit, as well as reduced risk, and
statistically outperform the other trading strategies
in a number of different performance metrics",
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notes = "School of Computing, University of Kent, Medway ME4
4AG, UK",
- }
Genetic Programming entries for
Adesola Noah Adegboye
Michael Kampouridis
Citations