Refining Mutation Variants in Cartesian Genetic Programming
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- @InProceedings{cui:2022:BOMTA,
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author = "Henning Cui and Andreas Margraf and Joerg Haehner",
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title = "Refining Mutation Variants in Cartesian Genetic
Programming",
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booktitle = "Bioinspired Optimization Methods and Their
Applications",
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year = "2022",
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editor = "Marjan Mernik and Tome Eftimov and Matej Crepinsek",
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volume = "13627",
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series = "LNCS",
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pages = "185--200",
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publisher = "Springer",
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keywords = "genetic algorithms, genetic programming, Cartesian
Genetic Programming",
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isbn13 = "978-3-031-21094-5",
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URL = "http://link.springer.com/chapter/10.1007/978-3-031-21094-5_14",
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DOI = "doi:10.1007/978-3-031-21094-5_14",
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abstract = "we improve upon two frequently used mutation
algorithms and therefore introduce three refined
mutation strategies for Cartesian Genetic Programming.
At first, we take the probabilistic concept of a
mutation rate and split it into two mutation rates, one
for active and inactive nodes respectively. Afterwards,
the mutation method Single is taken and extended.
Single mutates nodes until an active node is hit. Here,
our extension mutates nodes until more than one but
still predefined number n of active nodes are hit. At
last, this concept is taken and a decay rate for n is
introduced. Thus, we decrease the required number of
active nodes hit per mutation step during CGP's
training process. We show empirically on different
classification, regression and boolean regression
benchmarks that all methods lead to better fitness
values. This is then further supported by probabilistic
comparison methods such as the Bayesian comparison of
classifiers and the Mann-Whitney-U-Test. However, these
improvements come with the cost of more mutation steps
needed which in turn lengthens the training time. The
third variant, in which n is decreased, does not differ
from the second mutation strategy listed.",
- }
Genetic Programming entries for
Henning Cui
Andreas Margraf
Joerg Haehner
Citations