广义线性模型--1.1.普通最小二乘法
作者:互联网
1.最小二乘法数学表达式:
使经验函数风险最小化 = 损失函数(平方损失)
2.示例
1 from sklearn import linear_model 2 reg = linear_model.LinearRegression() 3 reg.fit ([[0, 0], [1, 1], [2, 2]], [0, 1, 2]) 4 LinearRegression(copy_X=True, fit_intercept=True, n_jobs=1, normalize=False) 5 reg.coef_ 6 array([ 0.5, 0.5])
模型参数 coef = w 相关系数 intercept = w0 截距 在fit_intercept = Flase的时候将会返回0
copy_x 是否对x值进行复制保存
fit_intercept 是否显示截距 即b的值
n_jobs 运算时电脑几核运行
normalize 在进行最小二乘法运算时x是否先标准化,当_fit_intercep_t为False时该参数默认取消
3.官方案例
1 import matplotlib.pyplot as plt
2 import numpy as np
3 from sklearn import datasets, linear_model
4 from sklearn.metrics import mean_squared_error, r2_score
5
6 # Load the diabetes dataset
7 diabetes_X, diabetes_y = datasets.load_diabetes(return_X_y=True)
8 print(diabetes_y)
9 # Use only one feature
10 diabetes_X = diabetes_X[:, np.newaxis, 2]
11
12
13 # Split the data into training/testing sets
14 diabetes_X_train = diabetes_X[:-20]
15 diabetes_X_test = diabetes_X[-20:]
16
17 # Split the targets into training/testing sets
18 diabetes_y_train = diabetes_y[:-20]
19 diabetes_y_test = diabetes_y[-20:]
20
21 # Create linear regression object
22 regr = linear_model.LinearRegression()
23
24 # Train the model using the training sets
25 regr.fit(diabetes_X_train, diabetes_y_train)
26
27 # Make predictions using the testing set
28 diabetes_y_pred = regr.predict(diabetes_X_test)
29
30 # The coefficients
31 print('Coefficients: \n', regr.coef_)
32 # The mean squared error #残差平方和
33 print('Mean squared error: %.2f'
34 % mean_squared_error(diabetes_y_test, diabetes_y_pred))
35 # The coefficient of determination: 1 is perfect prediction
36 print('Coefficient of determination: %.2f'
37 % r2_score(diabetes_y_test, diabetes_y_pred))
38
39 # Plot outputs
40 plt.scatter(diabetes_X_test, diabetes_y_test, color='black')
41 plt.plot(diabetes_X_test, diabetes_y_pred, color='blue', linewidth=3)
42
43 plt.xticks(())
44 plt.yticks(())
标签:plt,20,1.1,fit,test,线性,import,乘法,diabetes 来源: https://www.cnblogs.com/zhengyinboke/p/12745223.html