An Investigation of Geometric Semantic GP with Linear Scaling
Created by W.Langdon from
gp-bibliography.bib Revision:1.7954
- @InProceedings{nadizar:2023:GECCO2,
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author = "Giorgia Nadizar and Fraser Garrow and
Berfin Sakallioglu and Lorenzo Canonne and Sara Silva and
Leonardo Vanneschi",
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title = "An Investigation of Geometric Semantic {GP} with
Linear Scaling",
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booktitle = "Proceedings of the 2023 Genetic and Evolutionary
Computation Conference",
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year = "2023",
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editor = "Sara Silva and Luis Paquete and Leonardo Vanneschi and
Nuno Lourenco and Ales Zamuda and Ahmed Kheiri and
Arnaud Liefooghe and Bing Xue and Ying Bi and
Nelishia Pillay and Irene Moser and Arthur Guijt and
Jessica Catarino and Pablo Garcia-Sanchez and
Leonardo Trujillo and Carla Silva and Nadarajen Veerapen",
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pages = "1165--1174",
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address = "Lisbon, Portugal",
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series = "GECCO '23",
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month = "15-19 " # 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, symbolic
regression, linear scaling, geometric semantic genetic
programming",
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isbn13 = "9798400701191",
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DOI = "doi:10.1145/3583131.3590418",
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size = "10 pages",
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abstract = "Geometric semantic genetic programming (GSGP) and
linear scaling (LS) have both, independently, shown the
ability to outperform standard genetic programming (GP)
for symbolic regression. GSGP uses geometric semantic
genetic operators, different from the standard ones,
without altering the fitness, while LS modifies the
fitness without altering the genetic operators. So far,
these two methods have already been joined together in
only one practical application. However, to the best of
our knowledge, a methodological study on the pros and
cons of integrating these two methods has never been
performed. In this paper, we present a study of
GSGP-LS, a system that integrates GSGP and LS. The
results, obtained on five hand-tailored benchmarks and
six real-life problems, indicate that GSGP-LS
outperforms GSGP in the majority of the cases,
confirming the expected benefit of this integration.
However, for some particularly hard datasets, GSGP-LS
overfits training data, being outperformed by GSGP on
unseen data. Additional experiments using standard GP,
with and without LS, confirm this trend also when
standard crossover and mutation are employed. This
contradicts the idea that LS is always beneficial for
GP, warning the practitioners about its risk of
overfitting in some specific cases.",
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notes = "GECCO-2023 A Recombination of the 32nd International
Conference on Genetic Algorithms (ICGA) and the 28th
Annual Genetic Programming Conference (GP)",
- }
Genetic Programming entries for
Giorgia Nadizar
Fraser Garrow
Berfin Sakallioglu
Lorenzo Canonne
Sara Silva
Leonardo Vanneschi
Citations