Cross-Domain Features of Runs of Genetic Programming
Used to Evolve Designs for Analog Circuits, Optical
Lens Systems, Controllers, Antennas, Mechanical
Systems, and Quantum Computing Circuits
J. Koza, S. Al-Sakran, and L. Jones. Proceedings of the 2005 NASA/DoD Conference on
Evolvable Hardware, page 205--214. Washington, DC, USA, IEEE Press, (29 June-1 July 2005)
Abstract
Genetic programming has now been successfully used to
automatically synthesise human-competitive designs in a
number of fields, including analog electrical circuits,
optical lens systems, antennas, controllers, mechanical
systems, and quantum computing circuits. Despite
considerable variation in representation and technique,
the above results share a number of common features.
This paper identifies five common features and suggests
possible explanations and interpretations for them.
Some of these cross-domain observations clearly could
not have been anticipated prior to the work being
done.
%0 Conference Paper
%1 koza:2005:EH
%A Koza, John R.
%A Al-Sakran, Sameer H.
%A Jones, Lee W.
%B Proceedings of the 2005 NASA/DoD Conference on
Evolvable Hardware
%C Washington, DC, USA
%D 2005
%E Lohn, Jason
%E Gwaltney, David
%E Hornby, Gregory
%E Zebulum, Ricardo
%E Keymeulen, Didier
%E Stoica, Adrian
%I IEEE Press
%K EHW algorithms, genetic programming,
%P 205--214
%T Cross-Domain Features of Runs of Genetic Programming
Used to Evolve Designs for Analog Circuits, Optical
Lens Systems, Controllers, Antennas, Mechanical
Systems, and Quantum Computing Circuits
%U http://doi.ieeecomputersociety.org/10.1109/EH.2005.17
%X Genetic programming has now been successfully used to
automatically synthesise human-competitive designs in a
number of fields, including analog electrical circuits,
optical lens systems, antennas, controllers, mechanical
systems, and quantum computing circuits. Despite
considerable variation in representation and technique,
the above results share a number of common features.
This paper identifies five common features and suggests
possible explanations and interpretations for them.
Some of these cross-domain observations clearly could
not have been anticipated prior to the work being
done.
%@ 0-7695-2399-4
@inproceedings{koza:2005:EH,
abstract = {Genetic programming has now been successfully used to
automatically synthesise human-competitive designs in a
number of fields, including analog electrical circuits,
optical lens systems, antennas, controllers, mechanical
systems, and quantum computing circuits. Despite
considerable variation in representation and technique,
the above results share a number of common features.
This paper identifies five common features and suggests
possible explanations and interpretations for them.
Some of these cross-domain observations clearly could
not have been anticipated prior to the work being
done.},
added-at = {2008-06-19T17:35:00.000+0200},
address = {Washington, DC, USA},
author = {Koza, John R. and Al-Sakran, Sameer H. and Jones, Lee W.},
biburl = {https://www.bibsonomy.org/bibtex/28118ce3c482cd964e417806da91b9fb9/brazovayeye},
booktitle = {Proceedings of the 2005 NASA/DoD Conference on
Evolvable Hardware},
editor = {Lohn, Jason and Gwaltney, David and Hornby, Gregory and Zebulum, Ricardo and Keymeulen, Didier and Stoica, Adrian},
interhash = {975514958b3de6ff6488781f25d7dac2},
intrahash = {8118ce3c482cd964e417806da91b9fb9},
isbn = {0-7695-2399-4},
keywords = {EHW algorithms, genetic programming,},
month = {29 June-1 July},
notes = {EH2005 IEEE Computer Society Order Number P2399},
organisation = {NASA, DoD},
pages = {205--214},
publisher = {IEEE Press},
publisher_address = {IEEE Service Center 445 Hoes Lane Asia P.O. Box
1331 Piscataway, NJ 08855-1331},
timestamp = {2008-06-19T17:44:18.000+0200},
title = {Cross-Domain Features of Runs of Genetic Programming
Used to Evolve Designs for Analog Circuits, Optical
Lens Systems, Controllers, Antennas, Mechanical
Systems, and Quantum Computing Circuits},
url = {http://doi.ieeecomputersociety.org/10.1109/EH.2005.17},
year = 2005
}