Learning the Caesar and Vigenere Cipher by Hierarchical Evolutionary Re-Combination

Created by W.Langdon from gp-bibliography.bib Revision:1.4524

  author =       "Alan Blair",
  title =        "Learning the Caesar and Vigenere Cipher by
                 Hierarchical Evolutionary Re-Combination",
  booktitle =    "2013 IEEE Conference on Evolutionary Computation",
  volume =       "1",
  year =         "2013",
  month =        jun # " 20-23",
  editor =       "Luis Gerardo {de la Fraga}",
  pages =        "605--612",
  address =      "Cancun, Mexico",
  keywords =     "genetic algorithms, genetic programming, HERCL,
                 Evolutionary computation",
  isbn13 =       "978-1-4799-0453-2",
  URL =          "http://www.cse.unsw.edu.au/~blair/pubs/2013BlairCEC.pdf",
  DOI =          "doi:10.1109/CEC.2013.6557624",
  article_id =   "1135",
  size =         "8 pages",
  abstract =     "We describe a new programming language called HERCL,
                 designed for evolutionary computation with the specific
                 aim of allowing new programs to be created by combining
                 patches of code from different parts of other programs,
                 at multiple scales. Large-scale patches are followed up
                 by smaller-scale patches or mutations, recursively, to
                 produce a global random search strategy known as
                 hierarchical evolutionary re-combination. We
                 demonstrate the proposed system on the task of learning
                 to encode with the Caesar or Vigenere Cipher, and show
                 how the evolution of one task may fruitfully be
                 cross-pollinated with evolved solutions from other
                 related tasks.",
  notes =        "Also known as \cite{6557624} CEC 2013 - A joint
                 meeting of the IEEE, the EPS and the IET.",

Genetic Programming entries for Alan Blair