On-the-Fly Simplification of Genetic Programming Models
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @InProceedings{Javed:2021:SAC,
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author = "Noman Javed and Fernand R. Gobet",
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title = "On-the-Fly Simplification of Genetic Programming
Models",
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booktitle = "Proceedings of the 36th Annual ACM Symposium on
Applied Computing, SAC 2021",
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year = "2021",
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series = "SAC '21",
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pages = "464--471",
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address = "Virtual Event, Republic of Korea",
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publisher = "Association for Computing Machinery",
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keywords = "genetic algorithms, genetic programming,
simplification, evolutionary computing",
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isbn13 = "9781450381048",
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URL = "https://doi.org/10.1145/3412841.3441926",
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DOI = "doi:10.1145/3412841.3441926",
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abstract = "The last decade has seen amazing performance
improvements in deep learning. However, the black-box
nature of this approach makes it difficult to provide
explanations of the generated models. In some fields
such as psychology and neuroscience, this limitation in
explainability and interpretability is an important
issue. Approaches such as genetic programming are well
positioned to take the lead in these fields because of
their inherent white box nature. Genetic programming,
inspired by Darwinian theory of evolution, is a
population-based search technique capable of exploring
a high-dimensional search space intelligently and
discovering multiple solutions. However, it is prone to
generate very large solutions, a phenomenon often
called bloat. The bloated solutions are not easily
understandable. we propose two techniques for
simplifying the generated models. Both techniques are
tested by generating models for a well-known psychology
experiment. The validity of these techniques is further
tested by applying them to a symbolic regression
problem. Several population dynamics are studied to
make sure that these techniques are not compromising
diversity, an important measure for finding better
solutions. The results indicate that the two techniques
can be both applied independently and simultaneously
and that they are capable of finding solutions at par
with those generated by the standard GP algorithm, but
with significantly reduced program size. There was no
loss in diversity nor reduction in overall fitness. In
fact, in some experiments, the two techniques even
improved fitness.",
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notes = "London School of Economics and Political Science",
- }
Genetic Programming entries for
Noman Javed
Fernand Gobet
Citations