Improving the efficiency of GP-GOMEA for higher-arity operators
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @InProceedings{schlender:2024:GECCO,
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author = "Thalea Schlender and Mafalda Malafaia and
Tanja Alderliesten and Peter Bosman",
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title = "Improving the efficiency of {GP-GOMEA} for
higher-arity operators",
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booktitle = "Proceedings of the 2024 Genetic and Evolutionary
Computation Conference",
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year = "2024",
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editor = "Ting Hu and Aniko Ekart and Julia Handl and
Xiaodong Li and Markus Wagner and Mario Garza-Fabre and
Kate Smith-Miles and Richard Allmendinger and Ying Bi and
Grant Dick and Amir H Gandomi and
Marcella Scoczynski Ribeiro Martins and Hirad Assimi and
Nadarajen Veerapen and Yuan Sun and Mario Andres Munyoz and
Ahmed Kheiri and Nguyen Su and Dhananjay Thiruvady and Andy Song and
Frank Neumann and Carla Silva",
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pages = "971--979",
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address = "Melbourne, Australia",
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series = "GECCO '24",
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month = "14-18 " # jul,
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organisation = "SIGEVO",
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publisher = "Association for Computing Machinery",
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publisher_address = "New York, NY, USA",
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keywords = "genetic algorithms, genetic programming, GOMEA,
semantic crossover, intron selection, explainable AI,
XAI",
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isbn13 = "979-8-4007-0494-9",
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DOI = "doi:10.1145/3638529.3654118",
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size = "9 pages",
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abstract = "Deploying machine learning models into sensitive
domains in our society requires these models to be
explainable. Genetic Programming (GP) can offer a way
to evolve inherently interpretable expressions.
GP-GOMEA is a form of GP that has been found
particularly effective at evolving expressions that are
accurate yet of limited size and, thus, promote
interpretability. Despite this strength, a limitation
of GP-GOMEA is template-based. This negatively affects
its scalability regarding the arity of operators that
can be used, since with increasing operator arity, an
increasingly large part of the template tends to go
unused. In this paper, we therefore propose two
enhancements to GP-GOMEA: (i) semantic subtree
inheritance, which performs additional variation steps
that consider the semantic context of a subtree, and
(ii) greedy child selection, which explicitly considers
parts of the template that in standard GP-GOMEA remain
unused. We compare different versions of GP-GOMEA
regarding search enhancements on a set of continuous
and discontinuous regression problems, with varying
tree depths and operator sets. Experimental results
show that both proposed search enhancements have a
generally positive impact on the performance of
GP-GOMEA, especially when the set of operators to
choose from is large and contains higher-arity
operators.",
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notes = "GECCO-2024 GP A Recombination of the 33rd
International Conference on Genetic Algorithms (ICGA)
and the 29th Annual Genetic Programming Conference
(GP)",
- }
Genetic Programming entries for
Thalea Schlender
Mafalda Malafaia
Tanja Alderliesten
Peter A N Bosman
Citations