Improving search performance of linear genetic programming based image recognition program synthesis by redundancy-removed recombination
Created by W.Langdon from
gp-bibliography.bib Revision:1.8081
- @InProceedings{Watchareeruetai:2008:ieeeSMCIA,
-
author = "Ukrit Watchareeruetai and Yoshinori Takeuchi and
Tetsuya Matsumoto and Hiroaki Kudo and Noboru Ohnishi",
-
title = "Improving search performance of linear genetic
programming based image recognition program synthesis
by redundancy-removed recombination",
-
booktitle = "IEEE Conference on Soft Computing in Industrial
Applications, 2008. SMCia '08",
-
year = "2008",
-
pages = "393--398",
-
address = "Muroran, Japan",
-
month = "25-27 " # jun,
-
keywords = "genetic algorithms, genetic programming, image
recognition, linear programming, search problems
evolutionary search, image recognition program
synthesis, linear genetic programming, nonredundant
offspring, redundancy-removed recombination",
-
DOI = "doi:10.1109/SMCIA.2008.5045996",
-
abstract = "This paper propose a new recombination method, named
redundancy-removed recombination, for linear genetic
programming based image recognition program synthesis.
The redundancy-removed recombination produces an
offspring (by conventional crossover or mutation), and
then adopts a canonical transformation to convert the
offspring into its canonical form, in which it can be
verified whether it has been evolved before
(redundant). If the offspring is redundant, it is
prohibited and recombination is repeated until
non-redundant offspring, which has never be born in the
evolutionary search, is produced. Experimental results
show that the use of the redundancy-removed
recombination improved the performance of evolutionary
search; it converged to the global optimum faster than
the use of conventional recombinations. Also we found
that the redundancy-removed recombination can construct
longer programs and concentrate on those areas, whereas
the conventional ones cannot.",
-
notes = "Also known as \cite{5045996}",
- }
Genetic Programming entries for
Ukrit WatchAreeruetai
Yoshinori Takeuchi
Tetsuya Matsumoto
Hiroaki Kudo
Noboru Ohnishi
Citations