import numpy as np import matplotlib.pyplot as plt ############################### #Datos originales ############################### X = 2 * np.random.rand(100, 1) y = 4 + 3 * X + np.random.randn(100,1) plt.plot(X,y,".") ############################### X_b = np.c_[np.ones((100,1)), X] #Se agrega x0=1 para cada instancia theta_best=np.linalg.inv(X_b.T.dot(X_b)).dot(X_b.T).dot(y) X_new = np.array([[0], [2]]) X_new_b = np.c_[np.ones((2, 1)), X_new] #Se agrega x0=1 para cada instancia y_predict = X_new_b.dot(theta_best) plt.plot(X_new, y_predict, "r-") plt.plot(X, y, "b.") plt.axis([0, 2, 0, 15]) plt.show()