FranksTree: A Genetic Programming Approach to Evolve Derived Bracketed L-systems

Created by W.Langdon from gp-bibliography.bib Revision:1.4333

  title =        "{FranksTree:} A Genetic Programming Approach to Evolve
                 Derived Bracketed {L-systems}",
  author =       "Danilo Mattos Bonfim and Leandro Nunes {de Castro}",
  year =         "2005",
  pages =        "1275--1278",
  editor =       "Lipo Wang and Ke Chen and Yew-Soon Ong",
  booktitle =    "Advances in Natural Computation, First International
                 Conference, ICNC 2005, Proceedings, Part II",
  publisher =    "Springer",
  series =       "Lecture Notes in Computer Science",
  volume =       "3611",
  address =      "Changsha, China",
  month =        aug # " 27-29",
  bibdate =      "2005-07-29",
  bibsource =    "DBLP,
  keywords =     "genetic algorithms, genetic programming, interactive
  ISBN =         "3-540-28325-0",
  DOI =          "doi:10.1007/11539087_168",
  size =         "4 pages",
  abstract =     "L-system is a grammar-like formalism introduced to
                 simulate the development of organisms. The L-system
                 grammar can be viewed as a sort of genetic information
                 that will be used to generate a specific structure.
                 However, throughout development, the string (genetic
                 information) that will effectively be used to 'draw'
                 the phenotype of an individual is a result of the
                 derivation of the L-system grammar. This work
                 investigates the effect of applying a genetic
                 programming approach to evolve derived L-systems
                 instead of evolving the Lsystem grammar. The crossing
                 over of plants from different species results in hybrid
                 plants resembling a 'Frankstree', i.e. plants resultant
                 from phenotypically different parents that present
                 unusual body structures.",
  notes =        "

                 Crossover based on identifying branches in pictures? No
                 mutation. population=6",

Genetic Programming entries for Danilo Mattos Bonfim Leandro Nunes de Castro