# Difference between revisions of "User:Elgreengeeto/Python Linear Perceptron"

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#same-lengthed arrays | #same-lengthed arrays | ||

def dot_product(a, b): | def dot_product(a, b): | ||

− | sum | + | return sum(x*y for x,y in zip(a,b)) |

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class Perceptron: | class Perceptron: |

## Latest revision as of 03:47, 2 March 2010

#a dot product is the sum of the products of aligned-elements from two #same-lengthed arrays def dot_product(a, b): return sum(x*y for x,y in zip(a,b)) class Perceptron: #percieve based on a list of inputs def percieve(self, inputs): #if there is not a list of weights, make one of = length to list of inputs if len(self.weights) < len(inputs): for ip in inputs: self.weights.append(self.defualt_weight) #get the dot product of those inputs with the bias and the input's weights with the bias's weight sum = dot_product(inputs + [self.bias], self.weights + [self.bias_weight]) return sum #learn method compares output of percieve() to the expected output and adjusts weights by plus or minus #the learn rate which is incrementally decreased by a factor of 0.99 def learn(self, inputs, expected): if self.learn_rate < 0.001: return self.learn_rate = self.learn_rate * 0.999 print "learn rate is %s" % (self.learn_rate) train_step = (expected - self.percieve(inputs)) * self.learn_rate self.bias_weight += self.bias_weight * train_step print "bias weight is: %s" % (self.bias_weight) for i in xrange(len(inputs)): self.weights[i] += inputs[i] * train_step print "input %s weight is: %s" % (i, self.weights[i]) #this defines how a Perceptron object represents itself in the interpreter def __str__(self): return "Weights: %s. Threshhold: %s. Learn rate: %s." % (self.weights, self.threshhold, self.learn_rate) #same as above __repr__ = __str__ #defines initial values for a new Perceptron object def __init__(self): self.bias = 1.0 self.bias_weight = 0.0 self.defualt_weight = 0.0 self.weights = [] self.learn_rate = 1 #trains a perceptron according to data def train(data, perceptron): for case in data: perceptron.learn(case[0],case[1]) #define a dataset to try and train a perceptron data = [[[1.0],2.0],[[2.0],4.0],[[3.0],6.0]] #do the damned thing if __name__ == '__main__': subject = Perceptron() for i in range(100000): train(data, subject) print "final bias weight: %s, final input weights: %s" % (subject.bias_weight, subject.weights)