Routine High-Return Human-Competitive Evolvable Hardware

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2004 NASA/DoD Conference on Evolvable Hardware (EH'04)

Seattle, Washington, USA

June 24-June 26

ISBN: 0-7695-2145-2

	ASCII Text	x
	John R. Koza, Martin A. Keane, Matthew J. Streeter, "Routine High-Return Human-Competitive Evolvable Hardware," Evolvable Hardware, NASA/DoD Conference on, pp. 3, 2004 NASA/DoD Conference on Evolvable Hardware (EH'04), 2004.

	BibTex	x
	@article{ 10.1109/EH.2004.1310803, author = {John R. Koza and Martin A. Keane and Matthew J. Streeter}, title = {Routine High-Return Human-Competitive Evolvable Hardware}, journal ={Evolvable Hardware, NASA/DoD Conference on}, volume = {0}, year = {2004}, isbn = {0-7695-2145-2}, pages = {3}, doi = {http://doi.ieeecomputersociety.org/10.1109/EH.2004.1310803}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Evolvable Hardware, NASA/DoD Conference on TI - Routine High-Return Human-Competitive Evolvable Hardware SN - 0-7695-2145-2 SP EP A1 - John R. Koza, A1 - Martin A. Keane, A1 - Matthew J. Streeter, PY - 2004 KW - null VL - 0 JA - Evolvable Hardware, NASA/DoD Conference on ER -

John R. Koza, Stanford University, CA

Martin A. Keane, Econometrics Inc., Chicago, Illinois

Matthew J. Streeter, Genetic Programming Inc., Mountain View, California

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/EH.2004.1310803

This paper reviews the use of genetic programming as an automated invention machine for the synthesis of both the topology and sizing of analog electrical circuits. The paper focuses on the importance of the developmental representation in this process. The paper makes the point that genetic programming now routinely delivers high-return human-competitive machine intelligence. It also makes the point that genetic programming has delivered a progression of qualitatively more substantial results in synchrony with five approximately order-of-magnitude increases in the expenditure of computer time. The paper shows six examples where genetic programming has synthesized a circuit that duplicates the functionality or infringes a 21st-century patented electrical circuit. Finally, the paper discusses how genetic programming can be enhanced in order to potentially enable it to deliver more complex industrial-strength results.

Citation:

John R. Koza, Martin A. Keane, Matthew J. Streeter, "Routine High-Return Human-Competitive Evolvable Hardware," eh, pp.3, 2004 NASA/DoD Conference on Evolvable Hardware (EH'04), 2004

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