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so if I use the following to implement crossover in a genetic algorithm:

Input: Two strings of n bits x and y
Output: Two strings of n bits x' and y'

and apply the crossover operator like this:

A crossover site is selected at random (with equal probability) that divides each string into two sub-strings of non-zero length:

x = [x1, x2];
y = [y1, y2]


x1.length = y1.length

The outputs are generated as:

x' = [x1, y2]
y' = [y1, x2]

Given that you start with

(x1, y1) = ((1 0 1 0) (1 1 1 1))

specify which 4 bit strings are possible values obtained through crossover alone.

So is this right?

0 1 0 1

I think its right just adding them together but Im a bit lost on this.

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1 Answer 1

up vote 1 down vote accepted

Adding them together is wrong.

A genome length of 4 implies there 3 possible crossover points (non zero length). These are between each of the 4 bits.

If you select a crossover point of 2, and inputs of:

(1010) (1111) -- x & y --

your resulting strings are:

(10.11) -- first 2 of x & last 2 of y.

(11.10) -- first 2 of y & last 2 of x.

Therefore it is easy to figure out the other 2 permutations (crossover points 1 & 3).

I suspect this is homework, so ill not do it all for you :)

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oh i see I was thinking about multiplying the two things together not breaking them apart that was my disconnect there thanks – MNM Oct 2 '12 at 13:48

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