Use of genetic programming for automatic synthesis of
post-2000 patented analog electrical circuits and
patentable controllers
M. Streeter, J. Koza, and M. Keane. Computer Aided Optimum Design of Structures VIII, 8, page 35--44. Detroit, Michigan, USA, WIT Press, (2003)
Abstract
This paper describes how we used genetic programming
to automatically create the design of both the
structure (topology) and sizing (component values) of
analog electrical circuits that duplicate the
functionality of five post-2000 patented inventions.
The paper also describes how we used genetic
programming to automatically create the design of both
the structure (topology) and tuning (parameter values)
of a general-purpose controller that outperforms
conventional controllers for industrially
representative plants.
%0 Conference Paper
%1 Streeter:2003:CAODS
%A Streeter, Matthew J.
%A Koza, John R.
%A Keane, Martin A.
%B Computer Aided Optimum Design of Structures VIII
%C Detroit, Michigan, USA
%D 2003
%E Hernandez, S.
%E Brebbia, C. A.
%E El-Sayed, M. E. M.
%I WIT Press
%K algorithms, automated circuits, controllers, design, genetic invention, parameterized programming, topology
%P 35--44
%T Use of genetic programming for automatic synthesis of
post-2000 patented analog electrical circuits and
patentable controllers
%U http://www.genetic-programming.com/jkpdf/opti2003.pdf
%V 8
%X This paper describes how we used genetic programming
to automatically create the design of both the
structure (topology) and sizing (component values) of
analog electrical circuits that duplicate the
functionality of five post-2000 patented inventions.
The paper also describes how we used genetic
programming to automatically create the design of both
the structure (topology) and tuning (parameter values)
of a general-purpose controller that outperforms
conventional controllers for industrially
representative plants.
@inproceedings{Streeter:2003:CAODS,
abstract = {This paper describes how we used genetic programming
to automatically create the design of both the
structure (topology) and sizing (component values) of
analog electrical circuits that duplicate the
functionality of five post-2000 patented inventions.
The paper also describes how we used genetic
programming to automatically create the design of both
the structure (topology) and tuning (parameter values)
of a general-purpose controller that outperforms
conventional controllers for industrially
representative plants.},
added-at = {2008-06-19T17:46:40.000+0200},
address = {Detroit, Michigan, USA},
author = {Streeter, Matthew J. and Koza, John R. and Keane, Martin A.},
biburl = {https://www.bibsonomy.org/bibtex/22fb93ae225a3582b82c4d38cd7dd3f75/brazovayeye},
booktitle = {Computer Aided Optimum Design of Structures VIII},
editor = {Hernandez, S. and Brebbia, C. A. and El-Sayed, M. E. M.},
email = {john@johnkoza.com},
interhash = {08152d5195ffdf96ef66c41b1ecff568},
intrahash = {2fb93ae225a3582b82c4d38cd7dd3f75},
keywords = {algorithms, automated circuits, controllers, design, genetic invention, parameterized programming, topology},
pages = {35--44},
publisher = {WIT Press},
size = {10 pages},
timestamp = {2008-06-19T17:52:24.000+0200},
title = {Use of genetic programming for automatic synthesis of
post-2000 patented analog electrical circuits and
patentable controllers},
url = {http://www.genetic-programming.com/jkpdf/opti2003.pdf},
volume = 8,
year = 2003
}