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I am running a NN that I wrote in python. The code can be found here: https://github.com/macember/Robots

I am trying to simulate intelligent behavior in a simple game (navigating in a 2D grid) and creating a neural net to dictate moves in the system. The NN's inputs are based on game state and each of four outputs correlates to a direction in the game.

I plan on integrating both learning (through back propagation) and an evolutionary algorithm to improve the net. I haven't done these yet.

When I generate a random neural net, the output values are extremely similar for sets of random inputs. I made a script to test this, giving random inputs to a net. here is some output (using a three layer NN with two nodes in each layer)

>>> N = NN([2,2,2])
>>> N.testFF()
input is:  {'b': 0.6300321240284852, 'a': 0.245649717700825}
Output is:  {'f': 0.7557340518095491, 'e': 0.5866158486821037}
input is:  {'b': 0.8659315134588257, 'a': -0.6952107384677655}
Output is:  {'f': 0.7616810926528508, 'e': 0.5786743967752962}
input is:  {'b': 0.5088586586275334, 'a': -0.7176161010171633}
Output is:  {'f': 0.761517246024039, 'e': 0.5808887833395328}
input is:  {'b': -0.5865144755313729, 'a': 0.3400342869757489}
Output is:  {'f': 0.7536479273198455, 'e': 0.5991244425223394}
input is:  {'b': 0.5672700235416512, 'a': 0.6656967627700134}
Output is:  {'f': 0.7537495968510863, 'e': 0.5891820039451959}
input is:  {'b': 0.19431145460238453, 'a': 0.5868630792365324}
Output is:  {'f': 0.7536649182045435, 'e': 0.5918493082124099}
input is:  {'b': -0.15788012917869665, 'a': -0.32943334540271163}
Output is:  {'f': 0.7581372988492242, 'e': 0.5899134015852748}
input is:  {'b': -0.03663722187528373, 'a': -0.8324058526739424}
Output is:  {'f': 0.7616549589608562, 'e': 0.5848896069914934}
input is:  {'b': -0.2931780831653765, 'a': -0.06414297882482467}
Output is:  {'f': 0.7563039087710385, 'e': 0.5932257665861186}
input is:  {'b': 0.8982765718675225, 'a': 0.44953365599658657}
Output is:  {'f': 0.7549702114856752, 'e': 0.5860345901600109}
>>> N = NN([2,2,2])
>>> N.testFF()
input is:  {'b': 0.024113560438166814, 'a': -0.7949744538938088}
Output is:  {'f': 0.6656100429064619, 'e': 0.5372786166653336}
input is:  {'b': 0.6056039498317247, 'a': 0.287307861657363}
Output is:  {'f': 0.6709890633469049, 'e': 0.5436132180175277}
input is:  {'b': 0.30433875322406134, 'a': -0.8238950595138659}
Output is:  {'f': 0.6649987325496198, 'e': 0.5377498798636424}
input is:  {'b': 0.5378442703630937, 'a': -0.10971641573925273}
Output is:  {'f': 0.6690909550566237, 'e': 0.541838144329374}
input is:  {'b': 0.8873061023269946, 'a': 0.5722969546900709}
Output is:  {'f': 0.6718198578437712, 'e': 0.5450709701892339}
input is:  {'b': -0.5847999783151456, 'a': 0.16581058216684363}
Output is:  {'f': 0.6723017566346072, 'e': 0.5404312703169255}
input is:  {'b': 0.6530007686904462, 'a': -0.6048238253240383}
Output is:  {'f': 0.6659680640306473, 'e': 0.5396063109855993}
input is:  {'b': -0.400476986657863, 'a': 0.965290502860076}
Output is:  {'f': 0.6750549773114247, 'e': 0.5434443703520683}
input is:  {'b': -0.4564590993507289, 'a': 0.8687847314403654}
Output is:  {'f': 0.6748656111589018, 'e': 0.5430646806880807}
input is:  {'b': 0.794834688155468, 'a': 0.8634619454721677}
Output is:  {'f': 0.672915500387125, 'e': 0.5457530415609254}

Each random NN returns significantly different output from other random NNs, but extremely similar output to itself for random inputs.

Is this behavior to be expected in an untrained neural net? Or is it a reflection of a bug in my code?

Thanks

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