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For a project which I am doing I am planning to build an Asynchronous Cellular EA with Intra-Population Effects. This last bit (the intra-population effects) is what my question is about.

What I mean by intra-population effects, is that the fitness of an individual in a cell, is dependent on the workings of the individuals in the neighbouring cells. This does not mean that it is dependent on the fitness of the neighbouring cells, but only on their working.

So if an individual in a cell changes it's parameters through evolution, its fitness could for example improve. The internal change of the individual could have either a positive, a negative, or no effect at all on the fitness of the individual in the neighbouring cell. Similarly, when the fitness of some individual declines, the fitness of the individual in the neighbouring cell could also improve, decline or have no change at all.

Please note that I am not talking about the propagation effect between neighbours. Individuals in cells can mate with neighbours and through that system of mating, neighbours already have effects on each other. In this case however, I am talking specifically about an existing individual, which would need to be retested if individuals in its neighbourhood would change their parameters.

This has the effect that you will never be finished testing the individuals, because changing one parameter in one individual might change the working on neighbouring individuals. This however, doesn't matter, since it will be a continuously self learning system in production.

And here comes my question: I've read a lot about cellular EAs but I can't find anything on these intra-populational effects. This "intra-population" is of course a word which I thought of myself so I don't even know if I am looking for the correct thing.

Does anybody know anything about these intra-populational effects? Does it exist in literature on EAs or would it be a completely new thing? All tips are welcome!

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I haven't thought about this particular question before, and I don't know of any resources on exactly this problem, but there are parallels between what you're describing and what are called "Michigan-style Learning Classifier Systems". There is potentially some research there that could point you in a fruitful direction. –  deong Dec 1 '12 at 16:28

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