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5

Your insertion logic is converting values it doesn't need to. There is no reason to convert data for a string of bits where you already know the possible outcomes of each bit: 0 or 1. And .insert() is the wrong method. You're stacking data into a string that is already previously sized, thereby adding more chars, not replacing them. You should start with ...


4

You're checking wheter the new fitness is smaller than the current fitness: if daughter_fitness < best_fitness: The fitness you calculate, however, can be negative: deltaRed = r1 - r2 deltaGreen = g1 - g2 deltaBlue = b1 - b2 deltaAlpha = a1 - a2 pixelFitness = deltaRed + deltaGreen + deltaBlue + deltaAlpha fitness += pixelFitness The various ...


2

In the function random_string you create a string of Nbits characters, which means its size is Nbits. Then you insert characters, making the string longer. There are two obvious solutions: One is to use i as an index into the string, and set that character. The other is to not set the size at all, and just append the new characters.


2

you have 1000 elements (1e3) and 22 seeds (indexes 0 - 21), so when you try to get the item seeds[22, 0] in following loop, the index is out of range: for i in range(elements): r = int(seeds[i, 0] ... I suspect tha what you need to do is: for i in range(len(seeds)): ...


1

Testing the GA Let the GA find a string of 1's from a the sequence of numbers from 1-9. The procedure Let the genes be a combination of the integers 123456789. Create a gene pool (initial population) with a random permutation of the integers of size 9. Let the fitness function rate how close each gene is to the correct permutation: 111111111 As a ...


1

A superficial explanation For simpleā„¢ mathematical functions, the solution would be to use your calculus and find the derivate function f'(x). If it's not mathematically possible to differentiate the error function f(x), you need to break out the other tools from you math-box. If the error function's solution space is convex, you could possibly use a ...


1

The structure of a network is not necessarily easy to choose (even for a layered one). The accuracy of the network will vary depending on how many neurons are used, how they are organized and connected and many other aspects. Using a GA algorithm to choose the setup might just produce better results than a human guess. The same goes for the weights. ...


1

Use GA to design the structure of the net (determine whether there should be an edge between two neurons or not). In general you seem to be talking about feed forward networks, presumably MLPs. With these structure of the network is concerned with the number of neurons and layers as well as the connections between neurons. Usually these are set out ...



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