Created
December 27, 2013 15:23
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Code to perform multivariate linear regression using a gradient descent on a data set. Sources:
http://cs229.stanford.edu/notes/cs229-notes1.pdf
http://stackoverflow.com/questions/17784587/gradient-descent-using-python-and-numpy-machine-learning
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| 5.1,3.5,1.4,0.2,Iris-setosa | |
| 4.9,3.0,1.4,0.2,Iris-setosa | |
| 4.7,3.2,1.3,0.2,Iris-setosa | |
| 4.6,3.1,1.5,0.2,Iris-setosa | |
| 5.0,3.6,1.4,0.2,Iris-setosa | |
| 5.4,3.9,1.7,0.4,Iris-setosa | |
| 4.6,3.4,1.4,0.3,Iris-setosa | |
| 5.0,3.4,1.5,0.2,Iris-setosa | |
| 4.4,2.9,1.4,0.2,Iris-setosa | |
| 4.9,3.1,1.5,0.1,Iris-setosa | |
| 5.4,3.7,1.5,0.2,Iris-setosa | |
| 4.8,3.4,1.6,0.2,Iris-setosa | |
| 4.8,3.0,1.4,0.1,Iris-setosa | |
| 4.3,3.0,1.1,0.1,Iris-setosa | |
| 5.8,4.0,1.2,0.2,Iris-setosa | |
| 5.7,4.4,1.5,0.4,Iris-setosa | |
| 5.4,3.9,1.3,0.4,Iris-setosa | |
| 5.1,3.5,1.4,0.3,Iris-setosa | |
| 5.7,3.8,1.7,0.3,Iris-setosa | |
| 5.1,3.8,1.5,0.3,Iris-setosa | |
| 5.4,3.4,1.7,0.2,Iris-setosa | |
| 5.1,3.7,1.5,0.4,Iris-setosa | |
| 4.6,3.6,1.0,0.2,Iris-setosa | |
| 5.1,3.3,1.7,0.5,Iris-setosa | |
| 4.8,3.4,1.9,0.2,Iris-setosa | |
| 5.0,3.0,1.6,0.2,Iris-setosa | |
| 5.0,3.4,1.6,0.4,Iris-setosa | |
| 5.2,3.5,1.5,0.2,Iris-setosa | |
| 5.2,3.4,1.4,0.2,Iris-setosa | |
| 4.7,3.2,1.6,0.2,Iris-setosa | |
| 4.8,3.1,1.6,0.2,Iris-setosa | |
| 5.4,3.4,1.5,0.4,Iris-setosa | |
| 5.2,4.1,1.5,0.1,Iris-setosa | |
| 5.5,4.2,1.4,0.2,Iris-setosa | |
| 4.9,3.1,1.5,0.1,Iris-setosa | |
| 5.0,3.2,1.2,0.2,Iris-setosa | |
| 5.5,3.5,1.3,0.2,Iris-setosa | |
| 4.9,3.1,1.5,0.1,Iris-setosa | |
| 4.4,3.0,1.3,0.2,Iris-setosa | |
| 5.1,3.4,1.5,0.2,Iris-setosa | |
| 5.0,3.5,1.3,0.3,Iris-setosa | |
| 4.5,2.3,1.3,0.3,Iris-setosa | |
| 4.4,3.2,1.3,0.2,Iris-setosa | |
| 5.0,3.5,1.6,0.6,Iris-setosa | |
| 5.1,3.8,1.9,0.4,Iris-setosa | |
| 4.8,3.0,1.4,0.3,Iris-setosa | |
| 5.1,3.8,1.6,0.2,Iris-setosa | |
| 4.6,3.2,1.4,0.2,Iris-setosa | |
| 5.3,3.7,1.5,0.2,Iris-setosa | |
| 5.0,3.3,1.4,0.2,Iris-setosa | |
| 7.0,3.2,4.7,1.4,Iris-versicolor | |
| 6.4,3.2,4.5,1.5,Iris-versicolor | |
| 6.9,3.1,4.9,1.5,Iris-versicolor | |
| 5.5,2.3,4.0,1.3,Iris-versicolor | |
| 6.5,2.8,4.6,1.5,Iris-versicolor | |
| 5.7,2.8,4.5,1.3,Iris-versicolor | |
| 6.3,3.3,4.7,1.6,Iris-versicolor | |
| 4.9,2.4,3.3,1.0,Iris-versicolor | |
| 6.6,2.9,4.6,1.3,Iris-versicolor | |
| 5.2,2.7,3.9,1.4,Iris-versicolor | |
| 5.0,2.0,3.5,1.0,Iris-versicolor | |
| 5.9,3.0,4.2,1.5,Iris-versicolor | |
| 6.0,2.2,4.0,1.0,Iris-versicolor | |
| 6.1,2.9,4.7,1.4,Iris-versicolor | |
| 5.6,2.9,3.6,1.3,Iris-versicolor | |
| 6.7,3.1,4.4,1.4,Iris-versicolor | |
| 5.6,3.0,4.5,1.5,Iris-versicolor | |
| 5.8,2.7,4.1,1.0,Iris-versicolor | |
| 6.2,2.2,4.5,1.5,Iris-versicolor | |
| 5.6,2.5,3.9,1.1,Iris-versicolor | |
| 5.9,3.2,4.8,1.8,Iris-versicolor | |
| 6.1,2.8,4.0,1.3,Iris-versicolor | |
| 6.3,2.5,4.9,1.5,Iris-versicolor | |
| 6.1,2.8,4.7,1.2,Iris-versicolor | |
| 6.4,2.9,4.3,1.3,Iris-versicolor | |
| 6.6,3.0,4.4,1.4,Iris-versicolor | |
| 6.8,2.8,4.8,1.4,Iris-versicolor | |
| 6.7,3.0,5.0,1.7,Iris-versicolor | |
| 6.0,2.9,4.5,1.5,Iris-versicolor | |
| 5.7,2.6,3.5,1.0,Iris-versicolor | |
| 5.5,2.4,3.8,1.1,Iris-versicolor | |
| 5.5,2.4,3.7,1.0,Iris-versicolor | |
| 5.8,2.7,3.9,1.2,Iris-versicolor | |
| 6.0,2.7,5.1,1.6,Iris-versicolor | |
| 5.4,3.0,4.5,1.5,Iris-versicolor | |
| 6.0,3.4,4.5,1.6,Iris-versicolor | |
| 6.7,3.1,4.7,1.5,Iris-versicolor | |
| 6.3,2.3,4.4,1.3,Iris-versicolor | |
| 5.6,3.0,4.1,1.3,Iris-versicolor | |
| 5.5,2.5,4.0,1.3,Iris-versicolor | |
| 5.5,2.6,4.4,1.2,Iris-versicolor | |
| 6.1,3.0,4.6,1.4,Iris-versicolor | |
| 5.8,2.6,4.0,1.2,Iris-versicolor | |
| 5.0,2.3,3.3,1.0,Iris-versicolor | |
| 5.6,2.7,4.2,1.3,Iris-versicolor | |
| 5.7,3.0,4.2,1.2,Iris-versicolor | |
| 5.7,2.9,4.2,1.3,Iris-versicolor | |
| 6.2,2.9,4.3,1.3,Iris-versicolor | |
| 5.1,2.5,3.0,1.1,Iris-versicolor | |
| 5.7,2.8,4.1,1.3,Iris-versicolor | |
| 6.3,3.3,6.0,2.5,Iris-virginica | |
| 5.8,2.7,5.1,1.9,Iris-virginica | |
| 7.1,3.0,5.9,2.1,Iris-virginica | |
| 6.3,2.9,5.6,1.8,Iris-virginica | |
| 6.5,3.0,5.8,2.2,Iris-virginica | |
| 7.6,3.0,6.6,2.1,Iris-virginica | |
| 4.9,2.5,4.5,1.7,Iris-virginica | |
| 7.3,2.9,6.3,1.8,Iris-virginica | |
| 6.7,2.5,5.8,1.8,Iris-virginica | |
| 7.2,3.6,6.1,2.5,Iris-virginica | |
| 6.5,3.2,5.1,2.0,Iris-virginica | |
| 6.4,2.7,5.3,1.9,Iris-virginica | |
| 6.8,3.0,5.5,2.1,Iris-virginica | |
| 5.7,2.5,5.0,2.0,Iris-virginica | |
| 5.8,2.8,5.1,2.4,Iris-virginica | |
| 6.4,3.2,5.3,2.3,Iris-virginica | |
| 6.5,3.0,5.5,1.8,Iris-virginica | |
| 7.7,3.8,6.7,2.2,Iris-virginica | |
| 7.7,2.6,6.9,2.3,Iris-virginica | |
| 6.0,2.2,5.0,1.5,Iris-virginica | |
| 6.9,3.2,5.7,2.3,Iris-virginica | |
| 5.6,2.8,4.9,2.0,Iris-virginica | |
| 7.7,2.8,6.7,2.0,Iris-virginica | |
| 6.3,2.7,4.9,1.8,Iris-virginica | |
| 6.7,3.3,5.7,2.1,Iris-virginica | |
| 7.2,3.2,6.0,1.8,Iris-virginica | |
| 6.2,2.8,4.8,1.8,Iris-virginica | |
| 6.1,3.0,4.9,1.8,Iris-virginica | |
| 6.4,2.8,5.6,2.1,Iris-virginica | |
| 7.2,3.0,5.8,1.6,Iris-virginica | |
| 7.4,2.8,6.1,1.9,Iris-virginica | |
| 7.9,3.8,6.4,2.0,Iris-virginica | |
| 6.4,2.8,5.6,2.2,Iris-virginica | |
| 6.3,2.8,5.1,1.5,Iris-virginica | |
| 6.1,2.6,5.6,1.4,Iris-virginica | |
| 7.7,3.0,6.1,2.3,Iris-virginica | |
| 6.3,3.4,5.6,2.4,Iris-virginica | |
| 6.4,3.1,5.5,1.8,Iris-virginica | |
| 6.0,3.0,4.8,1.8,Iris-virginica | |
| 6.9,3.1,5.4,2.1,Iris-virginica | |
| 6.7,3.1,5.6,2.4,Iris-virginica | |
| 6.9,3.1,5.1,2.3,Iris-virginica | |
| 5.8,2.7,5.1,1.9,Iris-virginica | |
| 6.8,3.2,5.9,2.3,Iris-virginica | |
| 6.7,3.3,5.7,2.5,Iris-virginica | |
| 6.7,3.0,5.2,2.3,Iris-virginica | |
| 6.3,2.5,5.0,1.9,Iris-virginica | |
| 6.5,3.0,5.2,2.0,Iris-virginica | |
| 6.2,3.4,5.4,2.3,Iris-virginica | |
| 5.9,3.0,5.1,1.8,Iris-virginica |
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| import numpy as np | |
| import matplotlib.pyplot as plt | |
| class GradientDescent(): | |
| def __init__(self, alpha=0.1, tolerance=0.02, max_iterations=500): | |
| #alpha is the learning rate or size of step to take in | |
| #the gradient decent | |
| self._alpha = alpha | |
| self._tolerance = tolerance | |
| self._max_iterations = max_iterations | |
| #thetas is the array coeffcients for each term | |
| #the y-intercept is the last element | |
| self._thetas = None | |
| def fit(self, xs, ys): | |
| num_examples, num_features = np.shape(xs) | |
| self._thetas = np.ones(num_features) | |
| xs_transposed = xs.transpose() | |
| for i in range(self._max_iterations): | |
| #difference between our hypothesis and actual values | |
| diffs = np.dot(xs,self._thetas) - ys | |
| #sum of the squares | |
| cost = np.sum(diffs**2) / (2*num_examples) | |
| #calculate averge gradient for every example | |
| gradient = np.dot(xs_transposed, diffs) / num_examples | |
| #update the coeffcients | |
| self._thetas = self._thetas-self._alpha*gradient | |
| #check if fit is "good enough" | |
| if cost < self._tolerance: | |
| return self._thetas | |
| return self._thetas | |
| def predict(self, x): | |
| return np.dot(x, self._thetas) | |
| #load some example data | |
| data = np.loadtxt("iris.data.txt", usecols=(0,1,2,3), delimiter=',') | |
| col_names = ['sepal length', 'sepal width', 'petal length', 'petal width'] | |
| data_map = dict(zip(col_names, data.transpose())) | |
| #create martix of features | |
| features = np.column_stack((data_map['petal length'], np.ones(len(data_map['petal length'])))) | |
| gd = GradientDescent(tolerance=0.022) | |
| thetas = gd.fit(features, data_map['petal width']) | |
| gradient, intercept = thetas | |
| #predict values accroding to our model | |
| ys = gd.predict(features) | |
| plt.scatter(data_map['petal length'], data_map['petal width']) | |
| plt.plot(data_map['petal length'], ys) | |
| plt.show() |
I got it. Now everything is clear.
i am having a doubt in this:-
gradient = np.dot(xs_transposed, diffs) / num_examples
can u pls explain me this
@savage-1
gradient is derivate. so differentiation of cost function = (np.dot(xs,self._thetas) - ys)^2 with respect to self._thetas will give
dw=2 *(np.dot(xs,self._thetas) - ys)xs
for M examples, we have
dw = 2 (np.dot(xs,self._thetas) - ys)xs/(2M)
= 2(diffs)xs/(2M)
= diffsxs/M
i.e np.dot(xs_transposed, diffs)/num_examples
Hey I didn't understand I want to do this problem by adding 1 to the array
@anuraglahon16 : It should be the intercept item, say b in the y = ax + b
What this command actually does ?
data_map = dict(zip(col_names, data.transpose()))
why are we just using 1 feature in "features = np.column_stack((data_map['petal length'], np.ones(len(data_map['petal length']))))" when we have 4 features ?
Really helps me a lot. Thanks a lot for sharing this code.
why are we just using 1 feature in "features = np.column_stack((data_map['petal length'], np.ones(len(data_map['petal length']))))" when we have 4 features ?
Hi, I have the same doubt as deependra. If there are four features, can't we show a 3D graph plotting all those features?
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This is exactly what I'm looking for. But there is one thing that I need to clarify: where are the expressions for the partial derivatives? Please give me the logic behind that.