Artificial Bee Colony Programming Using Semantic Control Crossover
Created by W.Langdon from
gp-bibliography.bib Revision:1.7917
- @InProceedings{Hara:2018:ieeeSMC,
-
author = "Akira Hara and Jun-Ichi Kushida and Ryota Takemoto and
Tetsuyuki Takahama",
-
booktitle = "2018 IEEE International Conference on Systems, Man,
and Cybernetics (SMC)",
-
title = "Artificial Bee Colony Programming Using Semantic
Control Crossover",
-
year = "2018",
-
pages = "189--194",
-
abstract = "Artificial Bee Colony Programming (ABCP), which has
been inspired by intelligent foraging behaviour of
honey bees, is a swarm-based automatic programming
method. Tree structural programs can be optimized by
three kinds of bees such as employed bees, onlooker
bees and scout bees. New solutions are generated by
information sharing mechanism, which is similar to
subtree exchange crossover used in Genetic Programming
(GP). However, it is difficult to control global or
local search by the operation. To solve the problem, we
introduce Semantic Control Crossover (SCC), which we
have previously proposed as one of semantics-based
crossovers in GP, into ABCP. In this paper, we proposed
two kinds of improved ABCPs using SCC. In the Proposed
Method 1, employed bees and onlooker bees have
different search strategies. Employed bees perform
global search and onlookers perform local search. On
the other hand, in the Proposed Method 2, the search
strategies are switched according to the degree of
stagnation. Local search is performed while solutions
have been improved successively. In contrast, global
search is performed when the solutions have not been
improved for a long term. We applied our proposed
methods to symbolic regression problems and confirmed
that our proposed methods have higher performance than
the conventional ABCP.",
-
keywords = "genetic algorithms, genetic programming, Semantics,
Search problems, Information management, Switches,
Artificial bee colony algorithm, Automatic programming,
Swarm Intelligence, Artificial Bee Colony",
-
DOI = "doi:10.1109/SMC.2018.00043",
-
ISSN = "2577-1655",
-
month = oct,
-
notes = "Also known as \cite{8616038}",
- }
Genetic Programming entries for
Akira Hara
Jun-ichi Kushida
Ryota Takemoto
Tetsuyuki Takahama
Citations