Mmm, I thought about this and you’re right. Monotonically increasing numbers might make a meta-level “defect last N” game out of the evolution—turn Clique a turn before the others do. Of course, now I also think there’s a way to turn m into an increasing number as well.
I mean the whole point of this idea was to theoretically have a gaussian distribution around your starting value, and then see which value is the most successful, right?
Actually the interesting part is whether you can use m cleverly, such that your mutation/evolution takes advantage of likely mutations/evolutions in other bots. Staying two steps ahead in the arms race at all times would allow you to dominate the genetic pool, because the change in bots would be the new constant. (My first idea along these lines was to have TFT-nD with n being decremented by 2 when m is decremented by one, and likewise for increments—so that my bot would become the parasite of other likely TFT-variable-nDs).
Mmm, I thought about this and you’re right. Monotonically increasing numbers might make a meta-level “defect last N” game out of the evolution—turn Clique a turn before the others do. Of course, now I also think there’s a way to turn m into an increasing number as well.
Actually the interesting part is whether you can use m cleverly, such that your mutation/evolution takes advantage of likely mutations/evolutions in other bots. Staying two steps ahead in the arms race at all times would allow you to dominate the genetic pool, because the change in bots would be the new constant. (My first idea along these lines was to have TFT-nD with n being decremented by 2 when m is decremented by one, and likewise for increments—so that my bot would become the parasite of other likely TFT-variable-nDs).