Graph structured program evolution with automatically defined nodes

Created by W.Langdon from gp-bibliography.bib Revision:1.3973

@InProceedings{DBLP:conf/gecco/ShirakawaN09,
  author =       "Shinichi Shirakawa and Tomoharu Nagao",
  title =        "Graph structured program evolution with automatically
                 defined nodes",
  booktitle =    "GECCO '09: Proceedings of the 11th Annual conference
                 on Genetic and evolutionary computation",
  year =         "2009",
  editor =       "Guenther Raidl and Franz Rothlauf and 
                 Giovanni Squillero and Rolf Drechsler and Thomas Stuetzle and 
                 Mauro Birattari and Clare Bates Congdon and 
                 Martin Middendorf and Christian Blum and Carlos Cotta and 
                 Peter Bosman and Joern Grahl and Joshua Knowles and 
                 David Corne and Hans-Georg Beyer and Ken Stanley and 
                 Julian F. Miller and Jano {van Hemert} and 
                 Tom Lenaerts and Marc Ebner and Jaume Bacardit and 
                 Michael O'Neill and Massimiliano {Di Penta} and Benjamin Doerr and 
                 Thomas Jansen and Riccardo Poli and Enrique Alba",
  pages =        "1107--1114",
  address =      "Montreal",
  publisher =    "ACM",
  publisher_address = "New York, NY, USA",
  month =        "8-12 " # jul,
  organisation = "SigEvo",
  keywords =     "genetic algorithms, genetic programming",
  isbn13 =       "978-1-60558-325-9",
  bibsource =    "DBLP, http://dblp.uni-trier.de",
  DOI =          "doi:10.1145/1569901.1570050",
  abstract =     "Currently, various automatic programming techniques
                 have been proposed and applied in various fields. Graph
                 Structured Program Evolution (GRAPE) is a recent
                 automatic programming technique with graph structure.
                 This technique can generate complex programs
                 automatically. In this paper, we introduce the concept
                 of automatically defined functions, called
                 automatically defined nodes (ADN), in GRAPE. The
                 proposed GRAPE program has a main program and several
                 subprograms. We verified the effectiveness of ADN
                 through several program evolution experiments, and
                 report the results of evolution of recursive programs
                 using GRAPE modified with ADN.",
  notes =        "GECCO-2009 A joint meeting of the eighteenth
                 international conference on genetic algorithms
                 (ICGA-2009) and the fourteenth annual genetic
                 programming conference (GP-2009).

                 ACM Order Number 910092.",
}

Genetic Programming entries for Shinichi Shirakawa Tomoharu Nagao

Citations