Multi-objective Genetic Programming with the Adaptive Weighted Splines Representation for Symbolic Regression
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @InProceedings{Raymond:2022:EuroGP,
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author = "Christian Raymond and Qi Chen and Bing Xue and
Mengjie Zhang",
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title = "Multi-objective Genetic Programming with the Adaptive
Weighted Splines Representation for Symbolic
Regression",
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booktitle = "EuroGP 2022: Proceedings of the 25th European
Conference on Genetic Programming",
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year = "2022",
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editor = "Eric Medvet and Gisele Pappa and Bing Xue",
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series = "LNCS",
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volume = "13223",
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publisher = "Springer Verlag",
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address = "Madrid, Spain",
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pages = "51--67",
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month = "20-22 " # apr,
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organisation = "EvoStar, Species",
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keywords = "genetic algorithms, genetic programming, Symbolic
Regression, Multi-objective Optimization,
Generalisation",
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isbn13 = "978-3-031-02055-1",
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DOI = "doi:10.1007/978-3-031-02056-8_4",
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abstract = "Genetic Programming (GP) based symbolic regression is
prone to generating complex models which often overfit
the training data and generalise poorly onto unseen
data. To address this issue, many pieces of research
have been devoted to controlling the model complexity
of GP. One recent work aims to control model complexity
using a new representation called Adaptive Weighted
Splines. With its semi-structured characteristic, the
Adaptive Weighted Splines representation can control
the model complexity explicitly, which was demonstrated
to be significantly better than its tree-based
counterpart at generalising to unseen data. This work
seeks to significantly extend the previous work by
proposing a multi-objective GP algorithm with the
Adaptive Weighted Splines representation, which uses
parsimony pressure to further control the model
complexity, as well as improve the interpretability of
the learnt models. Experimental results show that,
compared with single-objective GP with the Adaptive
Weighted Splines and multi-objective tree-based GP with
parsimony pressure, the new multi-objective GP method
generally obtains superior fronts and produces better
generalising models. These models are also
significantly smaller and more interpretable.",
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notes = "http://www.evostar.org/2022/eurogp/ Part of
\cite{Medvet:2022:GP} EuroGP'2022 held inconjunction
with EvoApplications2022 EvoCOP2022 EvoMusArt2022",
- }
Genetic Programming entries for
Christian Raymond
Qi Chen
Bing Xue
Mengjie Zhang
Citations