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J. J. Merelo-Guervós
and 1 contributors


Algorithm::Evolutionary::Fitness::ECC - Error Correcting codes problem generator


    my $number_of_codewords = 10;
    my $min_distance = 1;
    my $p_peaks = Algorithm::Evolutionary::Fitness::ECC->new( $number_of_codewords, $min_distance );


Extracted from article "Effects of scale-free and small-world topologies on binary coded self-adaptive CEA", by Giacobini et al [Ga]. Quoting: " The ECC problem was presented in [MW]. We will consider a three-tuple (n, M, d), where n is the length of each codeword (number of bits), M is the number of codewords, and d is the minimum Hamming distance between any pair of codewords. Our objective will be to find a code which has a value for d as large as possible (reflecting greater tolerance to noise and errors), given previously fixed values for n and M . The problem we have studied is a simplified version of that in [MW]. In our case we search half of the codewords (M/2) that will compose the code, and the other half is made up by the complement of the codewords computed by the algorithm"

[Ga] Mario Giacobini, Mike Preuss, Marco Tomassini: Effects of Scale-Free and Small-World Topologies on Binary Coded Self-adaptive CEA. EvoCOP 2006: 86-98.

[MW] F. J. MacWilliams and N. J. A. Sloane. The Theory of Error-Correcting Codes. North- Holland, Amsterdam, 1977.



Creates a new instance of the problem, with the said number of bits and peaks


Applies the instantiated problem to a chromosome


Applies the instantiated problem to a string


  This file is released under the GPL. See the LICENSE file included in this distribution,
  or go to http://www.fsf.org/licenses/gpl.txt

  CVS Info: $Date: 2009/07/24 10:25:49 $ 
  $Header: /media/Backup/Repos/opeal/opeal/Algorithm-Evolutionary/lib/Algorithm/Evolutionary/Fitness/ECC.pm,v 3.2 2009/07/24 10:25:49 jmerelo Exp $ 
  $Author: jmerelo $ 
  $Revision: 3.2 $
  $Name $