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After reading a paper they mention the Monte Carlo method for selecting fittest chromosomes. Is this the same as roulette wheel selection?

Direct quote

The same initial population of individuals was used for each problem and architecture. The population sizes were 150 individuals (except for HD problem that was 100). The following techniques were employed: the Montecarlo method for the selection of individuals; the Darwinian substitution method; a single crossover point; a crossover rate of 90%; and a mutation rate of 10%.

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I'm reading this paper by Goldberg & Deb (1991). In it they have also mentioned the term Monte Carlo, exact sentence is (Page 3: Section "Proportionate Reproduction"):

... Various methods have been suggested for sampling this probability distribution, including Monte Carlo or roulette wheel selection (De Jong, 1975), stochastic remainder selection (Booker, 1982; Brindle, 1981).....

So I suspect the term Monte Carlo was used to denote they used the method to generate a random number as a part of the selection process, rather than using it solely for selection.

If you remember computers back in the day needed a good random number generator, so they could have been using Monte Carlo for that.

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I would guess this is a typo. Monte Carlo isn't even correctly spelled, so there doesn't seem to have been much proofreading there. I've never heard of a Monte Carlo method to select the individuals. It would mean we select them randomly, which doesn't sound like a good idea: unlike Monte Carlo, a genetic algorithm does its search purposefully. The roulette wheel selection, for example, is biased toward the individuals that have the highest fitness. Note that we could use Monte Carlo when computing the fitness though. In any case, regarding the paper, I would ignore the mention the Monte Carlo method for selecting the individuals, or email the authors if I need the information.

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Well I do kind of need to know because I am re-implementing their algorithm. I have tried contacting the authors but they have not been helpful unfortunately. How could we use MC to calculate fitness? And as a separate questions do you know what they mean by Darwinian substitution? –  david_adler Apr 28 '13 at 12:35
> they have not been helpful unfortunately. What did they say? > How could we use MC to calculate fitness? E.g. sciencedirect.com/science/article/pii/S0951832099000800 "for each proposed chromosome, one can run a Monte Carlo code with a limited number of trials, e.g. 500, obtaining poorly significant statistical results." –  Franck Dernoncourt Apr 28 '13 at 15:33
> Darwinian substitution? No idea! I don't see what substitution they are talking about. Maybe they just refer loosely to the fact that they create a new generation with some individuals from the last generation + some new newly created individuals. I guess that's another question for them (and I'm also curious to know what they say about it). –  Franck Dernoncourt Apr 28 '13 at 15:35
yeah thats what i thought as well. Well actually, i didn't ask them that specific question but i asked them many others about their algorithm. (If you look closely at their algorithm it seems like their m processing iterations per sample can be reduced to one calculation and they are unclear about which weights astrocyte modify, among other things!) I had to call them to get them to respond to my email to which they gave short unhelpful one sentence answers like "Depends on the algorithm". So I don't think I'll get much more out of them than that!! –  david_adler Apr 28 '13 at 16:08
We really need open science... academic research is so inefficient that way it is right now. Anyway, maybe you could try to ask them the source code if they don't have the time to answer to your specific questions? –  Franck Dernoncourt Apr 28 '13 at 17:13

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