Evolving Developmental Programs That Build Neural Networks for Solving Multiple Problems
Created by W.Langdon from
gp-bibliography.bib Revision:1.8051
- @InProceedings{miller:2018:GPTP,
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author = "Julian F. Miller and Dennis G. Wilson and
Sylvain Cussat-Blanc",
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title = "Evolving Developmental Programs That Build Neural
Networks for Solving Multiple Problems",
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booktitle = "Genetic Programming Theory and Practice XVI",
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year = "2018",
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editor = "Wolfgang Banzhaf and Lee Spector and Leigh Sheneman",
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pages = "137--178",
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address = "Ann Arbor, USA",
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month = "17-20 " # may,
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publisher = "Springer",
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keywords = "genetic algorithms, genetic programming, Cartesian
Genetic Programming",
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isbn13 = "978-3-030-04734-4",
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URL = "http://link.springer.com/chapter/10.1007/978-3-030-04735-1_8",
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DOI = "doi:10.1007/978-3-030-04735-1_8",
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abstract = "A developmental model of an artificial neuron is
presented. In this model, a pair of neural
developmental programs develop an entire artificial
neural network of arbitrary size. The pair of neural
chromosomes are evolved using Cartesian Genetic
Programming. During development, neurons and their
connections can move, change, die or be created. We
show that this two-chromosome genotype can be evolved
to develop into a single neural network from which
multiple conventional artificial neural networks can be
extracted. The extracted conventional ANNs share some
neurons across tasks. We have evaluated the performance
of this method on three standard classification
problems: cancer, diabetes and the glass datasets. The
evolved pair of neuron programs can generate artificial
neural networks that perform reasonably well on all
three benchmark problems simultaneously. It appears to
be the first attempt to solve multiple standard
classification problems using a developmental
approach.",
- }
Genetic Programming entries for
Julian F Miller
Dennis G Wilson
Sylvain Cussat-Blanc
Citations