import numpy as np

a = np.random.randint(1,100, size= 1000).reshape(1000,1)
b = np.random.randint(0,2, size=1000).reshape(1000,1)

y = np.where(b==0,a*2, a*3)

X = np.hstack((a,b))
y = y

from sklearn.preprocessing import StandardScaler

sx = StandardScaler()
X = sx.fit_transform(X)

sy = StandardScaler()
y = sy.fit_transform(y)

w0 = np.random.normal(size=(2,1), scale=0.1)

for i in range(100):
    input_layer = X
    output_layer = X.dot(w0) 

    error = y - output_layer
    square_error = np.sqrt(np.mean(error**2))


    w0+= input_layer.T.dot(error) 

If i understand correctly, linear activation function is always f(x) = x.

If you check this code, you'll see square error is growing and growing, I have no idea how to solve this simple linear problem with NN. I am aware there are other models and libraries, however I am trying to do it this way.


You did not incorporate learning rate (see here and a more formal discussion here) into your model. When you train your network, you need to choose a learning rate parameter as well, and it has a big impact on whether your loss will decrease and how fast it converges.

By setting

w0+= input_layer.T.dot(error)

you chose the learning rate to be 1, which turned out to be too large. If instead you set

w0+= 0.0005*input_layer.T.dot(error) 

(that is, choose learning rate 0.0005) the loss will decrease:


It won't converge to 0 though, as your model is not linear. In the end the weight w0 that you get is

array([[ 0.92486712],
       [ 0.318241  ]])
| improve this answer | |
  • Hey Miriam, Once again, thank you very much. You are the best! – Makaroniiii Jul 24 '17 at 12:36
  • Thanks, happy to help :) – Miriam Farber Jul 24 '17 at 13:37

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