Co-evolving robocode tanks

Created by W.Langdon from gp-bibliography.bib Revision:1.4192

  author =       "Robin Harper",
  title =        "Co-evolving robocode tanks",
  booktitle =    "GECCO '11: Proceedings of the 13th annual conference
                 on Genetic and evolutionary computation",
  year =         "2011",
  editor =       "Natalio Krasnogor and Pier Luca Lanzi and 
                 Andries Engelbrecht and David Pelta and Carlos Gershenson and 
                 Giovanni Squillero and Alex Freitas and 
                 Marylyn Ritchie and Mike Preuss and Christian Gagne and 
                 Yew Soon Ong and Guenther Raidl and Marcus Gallager and 
                 Jose Lozano and Carlos Coello-Coello and Dario Landa Silva and 
                 Nikolaus Hansen and Silja Meyer-Nieberg and 
                 Jim Smith and Gus Eiben and Ester Bernado-Mansilla and 
                 Will Browne and Lee Spector and Tina Yu and Jeff Clune and 
                 Greg Hornby and Man-Leung Wong and Pierre Collet and 
                 Steve Gustafson and Jean-Paul Watson and 
                 Moshe Sipper and Simon Poulding and Gabriela Ochoa and 
                 Marc Schoenauer and Carsten Witt and Anne Auger",
  isbn13 =       "978-1-4503-0557-0",
  pages =        "1443--1450",
  keywords =     "genetic algorithms, genetic programming, grammatical
  month =        "12-16 " # jul,
  organisation = "SIGEVO",
  address =      "Dublin, Ireland",
  DOI =          "doi:10.1145/2001576.2001770",
  publisher =    "ACM",
  publisher_address = "New York, NY, USA",
  abstract =     "Robocode is a Java based programming platform where
                 robot tanks, controlled by programs written in Java,
                 compete. In this paper Grammatical Evolution is used to
                 evolve Java programs to control a Robocode robot. This
                 paper demonstrates how Grammatical Evolution together
                 with spatial co-evolution in age layered planes (SCALP)
                 can harness co-evolution to evolve relatively complex
                 behaviour, including robots capable of beating
                 Robocode's sample robots as well as some more complex
                 human coded robots. The results of the co-evolution are
                 similar to the results obtained by direct evolution
                 against a range of human coded robots. This indicates
                 that co-evolution alone is able to evolve robots of a
                 similar standard to those evolved against graded human
                 coded robots.",
  notes =        "Also known as \cite{2001770} GECCO-2011 A joint
                 meeting of the twentieth international conference on
                 genetic algorithms (ICGA-2011) and the sixteenth annual
                 genetic programming conference (GP-2011)",

Genetic Programming entries for Robin Harper