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I need to train a network to multiply or add 2 inputs, but it doesn't seem to approximate well for all points after 20000 iterations. More specifically, I train it on the whole dataset and it approximates well for the last points, but it seems like it isn't getting any better for the first endpoints. I normalize the data so that it is between -0.8 and 0.8. The network itself consists of 2 inputs 3 hidden neurons and 1 output neuron. I also set the network's learning rate to 0.25, and use as a learning function tanh(x).

It approximates really well for points that are trained last in the dataset, but for the first points it seems like it can't approximate well. I wonder what it is, that isn't helping it adjust well, whether it is the topology I am using, or something else?

Also how many neurons are appropriate in the hidden layer for this network?

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As far as I know a neuron has a Binary output, It "fires" or not. How are you planning on getting an output like adding or multiply if the output is 1 or 0 per default? –  dStulle Nov 17 '10 at 13:28
@dStulle Nope, that's just one type of a neuron (even though a common one) which you're talking about. –  Kos Nov 17 '10 at 13:37

2 Answers 2

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Technically just one...

Although I am not sure if this kind of neuron is used often in ANNs, it would have a 2D wave function - two inputs, matching wave for the specific point....

Why would you ever want an ANN to ... ADD?

just running the ANN would be 100x more processor intensive than a simple binary addition

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For testing purposes to get an idea, if it is actually working. Any ideas how else to test it, I have already tried it with the XOR, and it learns it. –  Flethuseo Nov 21 '10 at 4:11
Hm... Still, ANNs aren't for calculations of this linear type. You would be better to test it with something like feature detecting, or something that should really be learned for. Also - using neurons different from impulsory (logical) is currently not very good - it is hard to make them work and no research has lead to their practical / working application yet. –  Aurel300 Nov 21 '10 at 9:41

Think about what would happen if you replaced your tanh(x) threshold function with a linear function of x - call it a.x - and treat a as the sole learning parameter in each neuron. That's effectively what your network will be optimising towards; it's an approximation of the zero-crossing of the tanh function.

Now, what happens when you layer neurons of this linear type? You multiply the output of each neuron as the pulse goes from input to output. You're trying to approximate addition with a set of multiplications. That, as they say, does not compute.

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