Effective simplification of evolved push programs using a simple, stochastic hill-climber
Created by W.Langdon from
gp-bibliography.bib Revision:1.8051
- @InProceedings{Spector:2014:GECCOcomp,
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author = "Lee Spector and Thomas Helmuth",
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title = "Effective simplification of evolved push programs
using a simple, stochastic hill-climber",
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booktitle = "GECCO Comp '14: Proceedings of the 2014 conference
companion on Genetic and evolutionary computation
companion",
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year = "2014",
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editor = "Christian Igel and Dirk V. Arnold and
Christian Gagne and Elena Popovici and Anne Auger and
Jaume Bacardit and Dimo Brockhoff and Stefano Cagnoni and
Kalyanmoy Deb and Benjamin Doerr and James Foster and
Tobias Glasmachers and Emma Hart and Malcolm I. Heywood and
Hitoshi Iba and Christian Jacob and Thomas Jansen and
Yaochu Jin and Marouane Kessentini and
Joshua D. Knowles and William B. Langdon and Pedro Larranaga and
Sean Luke and Gabriel Luque and John A. W. McCall and
Marco A. {Montes de Oca} and Alison Motsinger-Reif and
Yew Soon Ong and Michael Palmer and
Konstantinos E. Parsopoulos and Guenther Raidl and Sebastian Risi and
Guenther Ruhe and Tom Schaul and Thomas Schmickl and
Bernhard Sendhoff and Kenneth O. Stanley and
Thomas Stuetzle and Dirk Thierens and Julian Togelius and
Carsten Witt and Christine Zarges",
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isbn13 = "978-1-4503-2881-4",
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keywords = "genetic algorithms, genetic programming: Poster",
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pages = "147--148",
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month = "12-16 " # jul,
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organisation = "SIGEVO",
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address = "Vancouver, BC, Canada",
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URL = "http://doi.acm.org/10.1145/2598394.2598414",
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DOI = "doi:10.1145/2598394.2598414",
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publisher = "ACM",
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publisher_address = "New York, NY, USA",
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abstract = "Genetic programming systems often produce programs
that include unnecessary code. This is undesirable for
several reasons, including the burdens that
overly-large programs put on end-users for program
interpretation and maintenance. The problem is
exacerbated by recently developed techniques, such as
genetic programming with geometric semantic crossover,
that tend to produce enormous programs. Methods for
automatically simplifying evolved programs are
therefore of interest, but automatic simplification is
non-trivial in the context of traditional program
representations with unconstrained function sets. Here
we show how evolved programs expressed in the
stack-based Push programming language can be
automatically and reliably simplified using a simple,
stochastic hill-climber. We demonstrate and
quantitatively characterise this simplification process
on programs evolved to solve four non-trivial genetic
programming problems with qualitatively different
function sets.",
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notes = "Also known as \cite{2598414} Distributed at
GECCO-2014.",
- }
Genetic Programming entries for
Lee Spector
Thomas Helmuth
Citations