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I'm trying to find out square root of a float number using genetic algorithm.
I have initialized population of random numbers and a fitness function. How do I implement selection of parents from population and uniform crossover?

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are you checking if the squares of parents are closer to the number you're trying to find the square root of ? –  nurettin Oct 11 '12 at 7:42
I'm figuring out how to select parents ? Those who have highest fitness values ? –  Lost Oct 11 '12 at 7:48
higher fitness = higher probability to get selected. –  gilad hoch Oct 11 '12 at 7:48
It depends on your fitness function... Which one are you using? –  UmNyobe Oct 11 '12 at 7:53
natural implementation would be num - (candidate * candidate) where you search for the minimal value. –  gilad hoch Oct 11 '12 at 7:53

1 Answer 1

The function given by gilad (the one you are using) seems fine. Why not just follow a standard procedure ? You can find some ideas on wikipedia

If you are considering a candidate as a 32 bit vector (31 actually), then doing a uniform crossover consist in choosing bits of either parent with half probability.

The idea will be :

  • Toss a coin
  • If head take on parent one,
  • If tails take on parent two

Programmatically an efficient way of creating a child from 2 parents will be to generate a random 32 bit number r, and given parents a and b do :

 child = (r & a) | (~r & b);
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Hm, I would probably have gone with | rather than +, if I am bit-fiddling, I want to be as clear as possible (and while bit-wise or and addition produces the same result in this specific case, bit-wise or is a bit clearer). –  Vatine Oct 11 '12 at 8:54
@Vatine, you are not the only one, I am going to edit that out... –  UmNyobe Oct 11 '12 at 8:55
In C++ "~" is used for bitwise complement, not sure for C. "!", a logical negation might give wrong result, 0 for non zero int. –  Emperor Orionii Oct 11 '12 at 9:44

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