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I'm trying to implement the rank selection operator in a genetic algorithm.

I'm writing in Python.

I want to minimize the fitness function which is a linear sum of partial costs.

A solution is found when the fitness value of it is zero.

I think I have develop the rank selection with roullete wheel. (RBRW - rank based roullete wheel).


  • Sort the chromosomes by fitness value. E.g.: 12.34, 100.21, 139.32

  • Assign ranks to chromosomes.

    1 - 12.34

    2 - 100.21

    3 - 139.32

Smaller rank means better fitness value (closer to zero - minimization problem).

  • Calculate the sum of the ranks: 1+2+3 = 6.

  • Calculate the relative probability for each chromosome based on the rank value only.

Probability = ((number of chromosomes - rank of chromosome + 1) / sum of ranks) * 100

So we have the probabilities :

((3 - 1 + 1) / 6) * 100 = 50% for chromosome with rank 1
((3 - 2 + 1) / 6) * 100 = 33.3% for chromosome with rank 2
((3 - 3 + 1) / 6) * 100 = 16.6% for chromosome with rank 3
  • Use the classic roulette wheel with the relative probabilities only.

  • Use as parent the chromosome that roulette wheel selected.

Questions: Is this algorithm correct for minimizing the fitness function? The classic roulette wheel does not work for minimization problems. But what about this implementation? Can anyone show me a simple implementation of rank selection with linear or non-linear mapping? I'm writing in Python, but other languages are also welcomed.

share|improve this question
In this kind of system, the notion of "correct" is somewhat fuzzy. I'm not familiar with the algorithm you're trying to implement, but I've worked with a few probabilistic hill-climbing algorithms, and the way you describe it sounds like it should work. Why not implement it and see if it does? – Jules Jul 20 '13 at 14:39
It seems that it works but I'm not sure. What I want to know is if the step of the roulette wheel in this algorithm can be used for minimization. If I want to inverse the logic in order to maximize the fitness function do I have to sort the chromosomes in descending? Then bigger fitness values will get bigger probability. It seems logical but I am searching an expert to guide me. – user1366349 Jul 20 '13 at 22:09

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