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partTwo.py
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partTwo.py
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# Neural Networks Demystified
# Part 2: Forward Propagation
#
# Supporting code for short YouTube series on artificial neural networks.
#
# Stephen Welch
# @stephencwelch
## ----------------------- Part 1 ---------------------------- ##
import numpy as np
# X = (hours sleeping, hours studying), y = Score on test
X = np.array(([3,5], [5,1], [10,2]), dtype=float)
y = np.array(([75], [82], [93]), dtype=float)
# Normalize
X = X/np.amax(X, axis=0)
y = y/100 #Max test score is 100
## ----------------------- Part 2 ---------------------------- ##
class Neural_Network(object):
def __init__(self):
#Define Hyperparameters
self.inputLayerSize = 2
self.outputLayerSize = 1
self.hiddenLayerSize = 3
#Weights (parameters)
self.W1 = np.random.randn(self.inputLayerSize, self.hiddenLayerSize)
self.W2 = np.random.randn(self.hiddenLayerSize, self.outputLayerSize)
def forward(self, X):
#Propagate inputs though network
self.z2 = np.dot(X, self.W1)
self.a2 = self.sigmoid(self.z2)
self.z3 = np.dot(self.a2, self.W2)
yHat = self.sigmoid(self.z3)
return yHat
def sigmoid(self, z):
#Apply sigmoid activation function to scalar, vector, or matrix
return 1/(1+np.exp(-z))