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simulating_photosynthesis [2008-10-09 10:46] davegriffithssimulating_photosynthesis [2008-10-09 11:08] davegriffiths
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 Using lindenmayer systems and genetic algorithms to simulate plant growth. Using lindenmayer systems and genetic algorithms to simulate plant growth.
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-{{http://www.pawfal.org/dave/images/patab-angle-s.png}} 
-{{http://www.pawfal.org/dave/images/patab-close-s.png}} 
-{{http://www.pawfal.org/dave/images/patab-occlude-s.png}} 
  
 Plants are given a "fitness" based on their leaves -  Plants are given a "fitness" based on their leaves - 
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   * Are they below the ground?   * Are they below the ground?
   * Also - the fitness drops as the plant description (a linenmayer system string) gets too long.   * Also - the fitness drops as the plant description (a linenmayer system string) gets too long.
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 +{{http://www.pawfal.org/dave/images/patab-angle-s.png}}
 +{{http://www.pawfal.org/dave/images/patab-close-s.png}}
 +{{http://www.pawfal.org/dave/images/patab-occlude-s.png}}
 +The leaf score is indicated by it's colour (red=bad, green=good).
  
 Using this measurement, a genetic algorithm can create populations of individual plants, score each one and iteratively create new populations by combining fit individuals. Using this measurement, a genetic algorithm can create populations of individual plants, score each one and iteratively create new populations by combining fit individuals.
  • simulating_photosynthesis.txt
  • Last modified: 2008-10-09 11:08
  • by davegriffiths