Efficient program generation by evolving graph structures with multi-start nodes
Created by W.Langdon from
gp-bibliography.bib Revision:1.8110
- @Article{Mabu20113618,
-
author = "Shingo Mabu and Kotaro Hirasawa",
-
title = "Efficient program generation by evolving graph
structures with multi-start nodes",
-
journal = "Applied Soft Computing",
-
volume = "11",
-
number = "4",
-
pages = "3618--3624",
-
year = "2011",
-
ISSN = "1568-4946",
-
DOI = "doi:10.1016/j.asoc.2011.01.033",
-
URL = "http://www.sciencedirect.com/science/article/B6W86-5230PMW-2/2/83938061ebc19cc5a8ad1b3aa41d96c3",
-
keywords = "genetic algorithms, genetic programming, Evolutionary
computation, Program generation, Graph structure,
Even-n-Parity problem, Mirror Symmetry problem",
-
abstract = "Automatic program generation is one of the applicable
fields of evolutionary computation, and Genetic
Programming (GP) is the typical method for this field.
On the other hand, Genetic Network Programming (GNP)
has been proposed as an extended algorithm of GP in
terms of gene structures. GNP is a graph-based
evolutionary algorithm and applied to automatic program
generation in this paper. GNP has directed graph
structures which have some features inherently, for
example, re-usability of nodes and the small number of
nodes. These features contribute to creating
complicated programs with compact structures and never
cause bloat. In this paper, the extended algorithm of
GNP is proposed, which can create plural programs
simultaneously in one individual by using multi-start
nodes. In addition, GNP can evolve the programs in one
individual considering the fitness and also its
standard deviation in order to evolve the plural
programs efficiently. In the simulations, Even-n-Parity
problem and Mirror Symmetry problem are used for the
performance evaluation, and the results show that the
proposed method outperforms the standard GNP with
single start node.",
- }
Genetic Programming entries for
Shingo Mabu
Kotaro Hirasawa
Citations