Minimum size Neural Network to represent a Boolean Function

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Greetings!
I am fairly new to Matlab but I am trying to understand how to build a basic neural network that is minimized to represent some Boolean function. Say we have variables p, q and r and the truth table is:
p q r | f(p,q,r)
----------------
0 0 0 0
0 0 1 1
0 1 0 1
0 1 1 0
1 0 0 1
1 0 1 0
1 1 0 1
1 1 1 0
I would like the neural network to be able to take in one value of p, q, and r and provide me with f(p,q,r).
To be honest, I have several books on Matlab, neural network, and several online forums and they seem to bounce around. I prefer not using "black box" add-ons until I understand how to do this the "hard way" first too.
I am looking for a purely NN approach. No Karnaugh maps or QM-method even though those apply.
I appreciate your help!

Answers (2)

Yavor Kamer
Yavor Kamer on 13 Oct 2018
A single neuron (with one input and one output) will take the input, multiply it by a weight, add it a bias, pass it through a nonlinear function of your choice and return the output. N(x)= fun(x*w+b) Suppose you are using a simple case with 3 neurons at your first (input) layer and a single neuron in your second and last (output) layer. Then your output would be of the form
N(p,q,r)= fun(fun(p*w(1)+b(1)) + ...
fun(q*w(2)+b(2)) + ...
fun(r*w(3)+b(3)))*w(4) + b(4));
By "training" such a neural network you are basically trying to find the values of vectors w and b that give the best fit to your desired outputs (i.e minimizing the misfit). So if you know what is your activation function ( fun ) you can write the full analytical form and try to solve and see what is the minimal complexity to obtain a given error.
  3 Comments
Yavor Kamer
Yavor Kamer on 15 Oct 2018
I understood your question as looking for the minimally complex NN structure (and it's formulation) that would fit your data. The proposed NN has a total of 4 (weights) + 4 (biases) = 8 free paramets and you have 8 data points, thus it is already complex enough. That's why I didn't include a hidden layer, but if you mean something else by minimal you should try to define that further. For me the interesting thing would be to find a suitable functional form that can fit the data good enough with even less free paramets, by removing some of the biases for instance.
dsmalenb
dsmalenb on 16 Oct 2018
After reading your response I would like to modify my objective by minimizing the number of free parameters.

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Greg Heath
Greg Heath on 17 Oct 2018
In general
1. A single tanh hidden layer with a linear output layer is always a sufficient minimum MSE approximator for bounded functions.
2. The number of unknown weights for a standard I-H-O MLP is
Nw = (I+1)*H + (H+1)*O = O +(I+O+1)*H
3. The corresponding No. of training equations is
Ntrneq = Ntrn*O
4. The number of unknowns will not exceed the number of training equations when
Ntrneq >= Nw
or
H <= Hub = (Ntrneq-O)/(I+O+1)
Hope this helps.
*Thank you for formally accepting this answer*
Greg

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