Comparison of Different Evolutionary Methodologies
Applied to Electronic Filter Design
R. Zebulum, M. Pacheco, and M. Vellasco. Proceedings of the 1998 IEEE World Congress on
Computational Intelligence, page 434--439. Anchorage, Alaska, USA, IEEE Press, (5-9 May 1998)
Abstract
We present in this work the application of a set of
different evoZutionary methodologies in the problem of
electronic filter design. The main objectives are to
find out which constraints in the filter topologies, if
any, must be observed along the evolutionary process
and to study the problem of convergence to parsimonious
circuits. The new area of Evolutionary Electronics is
introduced, an evolutionary methodology based on
variable length representation is presented and the
results on the evolution of low-pass and band-pass
filters are described.
Proceedings of the 1998 IEEE World Congress on
Computational Intelligence
year
1998
month
5-9 May
pages
434--439
publisher
IEEE Press
size
6 pages
file
c075.pdf
notes
ICEC-98 Held In Conjunction With WCCI-98 --- 1998 IEEE
World Congress on Computational Intelligence. In answer
to a question at WCCI-98, this approach was stated to
require fewer function evalutations than work by
Koza.
%0 Conference Paper
%1 zebulum:1998:cdemaefd
%A Zebulum, Ricardo S.
%A Pacheco, Marco Aurelio
%A Vellasco, Marley
%B Proceedings of the 1998 IEEE World Congress on
Computational Intelligence
%C Anchorage, Alaska, USA
%D 1998
%I IEEE Press
%K algorithms, genetic length representation variable
%P 434--439
%T Comparison of Different Evolutionary Methodologies
Applied to Electronic Filter Design
%X We present in this work the application of a set of
different evoZutionary methodologies in the problem of
electronic filter design. The main objectives are to
find out which constraints in the filter topologies, if
any, must be observed along the evolutionary process
and to study the problem of convergence to parsimonious
circuits. The new area of Evolutionary Electronics is
introduced, an evolutionary methodology based on
variable length representation is presented and the
results on the evolution of low-pass and band-pass
filters are described.
@inproceedings{zebulum:1998:cdemaefd,
abstract = {We present in this work the application of a set of
different evoZutionary methodologies in the problem of
electronic filter design. The main objectives are to
find out which constraints in the filter topologies, if
any, must be observed along the evolutionary process
and to study the problem of convergence to parsimonious
circuits. The new area of Evolutionary Electronics is
introduced, an evolutionary methodology based on
variable length representation is presented and the
results on the evolution of low-pass and band-pass
filters are described.},
added-at = {2008-06-19T17:35:00.000+0200},
address = {Anchorage, Alaska, USA},
author = {Zebulum, Ricardo S. and Pacheco, Marco Aurelio and Vellasco, Marley},
biburl = {https://www.bibsonomy.org/bibtex/2a4d86c732bfa6afc657b7016d58ee7a8/brazovayeye},
booktitle = {Proceedings of the 1998 IEEE World Congress on
Computational Intelligence},
file = {c075.pdf},
interhash = {f855755ee4d802022850d3b558508ec6},
intrahash = {a4d86c732bfa6afc657b7016d58ee7a8},
keywords = {algorithms, genetic length representation variable},
month = {5-9 May},
notes = {ICEC-98 Held In Conjunction With WCCI-98 --- 1998 IEEE
World Congress on Computational Intelligence. In answer
to a question at WCCI-98, this approach was stated to
require fewer function evalutations than work by
Koza.},
pages = {434--439},
publisher = {IEEE Press},
size = {6 pages},
timestamp = {2008-06-19T17:55:09.000+0200},
title = {Comparison of Different Evolutionary Methodologies
Applied to Electronic Filter Design},
year = 1998
}