Four problems for which a computer program evolved by genetic programming is competitive with human performance
Created by W.Langdon from
gp-bibliography.bib Revision:1.7964
- @InProceedings{koza:1996:4problems,
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author = "John R. Koza and Forrest H {Bennett III} and
David Andre and Martin A. Keane",
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title = "Four problems for which a computer program evolved by
genetic programming is competitive with human
performance",
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booktitle = "Proceedings of the 1996 IEEE International Conference
on Evolutionary Computation",
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year = "1996",
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volume = "1",
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pages = "1--10",
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publisher = "IEEE Press",
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keywords = "genetic algorithms, genetic programming",
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URL = "http://www.genetic-programming.com/jkpdf/icec1996.pdf",
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size = "10 pages",
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abstract = "It would be desirable if computers could solve
problems without the need for a human to write the
detailed programmatic steps. That is, it would be
desirable to have a domain-independent automatic
programming technique in which {"}What You Want Is What
You Get{"} ({"}WYWIWYG{"} pronounced
{"}wow-eee-wig{"}). Genetic programming is such a
technique. This paper surveys three recent examples of
problems (from the fields of cellular automata and
molecular biology) in which genetic programming evolved
a computer program that produced results that were
slightly better than human performance for the same
problem. This paper then discusses the problem of
electronic circuit synthesis in greater detail. It
shows how genetic programming can evolve both the
topology of a desired electrical circuit and the sizing
(numerical values) for each component in a crossover
(woofer and tweeter) filter. Genetic programming has
also evolved the design for a lowpass filter, the
design of an amplifier, and the design for an
asymmetric bandpass filter that was described as being
difficult-to-design in an article in a leading
electrical engineering journal.",
-
notes = "ICEC-96 Population 640,000 on filter problem, 1%
mutation. 64 demes, torrodally connected at end of each
generation. 4 emigrant boats of 2% per generation.",
- }
Genetic Programming entries for
John Koza
Forrest Bennett
David Andre
Martin A Keane
Citations