Evolvability Degeneration in Multi-Objective Genetic Programming for Symbolic Regression
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @Misc{Liu:2022:edMOGPsr,
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author = "Dazhuang Liu and Marco Virgolin and
Tanja Alderliesten and Peter A. N. Bosman",
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title = "Evolvability Degeneration in Multi-Objective Genetic
Programming for Symbolic Regression",
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howpublished = "ArXiv",
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year = "2022",
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month = "14 " # feb,
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keywords = "genetic algorithms, genetic programming, Symbolic
regression, multi-objective optimization, MOGP,
evolvability",
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URL = "https://arxiv.org/abs/2202.06983",
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size = "16 pages",
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abstract = "Genetic programming (GP) is one of the best approaches
today to discover symbolic regression models. To find
models that trade off accuracy and complexity, the
non-dominated sorting genetic algorithm II (NSGA-II) is
widely used. Unfortunately, it has been shown that
NSGA-II can be inefficient: in early generations,
low-complexity models over-replicate and take over most
of the population. Consequently, studies have proposed
different approaches to promote diversity. Here, we
study the root of this problem, in order to design a
superior approach. We find that the over-replication of
low complexity-models is due to a lack of evolvability,
i.e., the inability to produce offspring with improved
accuracy. We therefore extend NSGA-II to track, over
time, the evolvability of models of different levels of
complexity. With this information, we limit how many
models of each complexity level are allowed to survive
the generation. We compare this new version of NSGA-II,
evoNSGA-II, with the use of seven existing
multi-objective GP approaches on ten widely-used data
sets, and find that evoNSGA-II is equal or superior to
using these approaches in almost all comparisons.
Furthermore, our results confirm that evoNSGA-II
behaves as intended: models that are more evolvable
form the majority of the population.",
- }
Genetic Programming entries for
Dazhuang Liu
Marco Virgolin
Tanja Alderliesten
Peter A N Bosman
Citations