Automated Synthesis by Means of Genetic Programming of Complex Structures Incorporating Reuse, Hierarchies, Development, and Parameterized Toplogies
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InCollection{koza:2003:GPTP,
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author = "John R. Koza and Matthew J. Streeter and
Martin A. Keane",
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title = "Automated Synthesis by Means of Genetic Programming of
Complex Structures Incorporating Reuse, Hierarchies,
Development, and Parameterized Toplogies",
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booktitle = "Genetic Programming Theory and Practice",
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publisher = "Kluwer",
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year = "2003",
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editor = "Rick L. Riolo and Bill Worzel",
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chapter = "14",
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pages = "221--237",
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keywords = "genetic algorithms, genetic programming, Hierarchy,
reuse, development, parameterized topologies,
architecture-altering operations, automatically
functions, automatically defined iterations,
automatically defined loops, automatically defined
recursions, automatically defined stores, circuits,
controllers",
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ISBN = "1-4020-7581-2",
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URL = "http://www.genetic-programming.com/jkpdf/gptp2003.pdf",
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URL = "http://www.springer.com/computer/ai/book/978-1-4020-7581-0",
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DOI = "doi:10.1007/978-1-4419-8983-3_14",
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abstract = "Genetic programming can be used as an automated
invention machine to synthesise designs for complex
structures. In particular, genetic programming has
automatically synthesized complex structures that
infringe, improve upon, or duplicate the functionality
of 21 previously patented inventions (including analog
electrical circuits, controllers, and mathematical
algorithms). Genetic programming has also generated two
patentable new inventions (involving controllers).
Genetic programming has also generated numerous
additional human-competitive results involving the
design of quantum computing circuits as well as other
substantial results involving antennae, networks of
chemical reactions (metabolic pathways), and genetic
networks. We believe that these results are the direct
consequence of a group of techniques, many unique to
genetic programming, that facilitate the automatic
synthesis of complex structures. These techniques
include automatic reuse, parameterised reuse,
parameterised topologies, and developmental genetic
programming. The paper describes these techniques and
how they contribute to automated design.",
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notes = "Part of \cite{RioloWorzel:2003}",
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size = "14 pages",
- }
Genetic Programming entries for
John Koza
Matthew J Streeter
Martin A Keane
Citations