7. SciPy最小二乘法

最小二乘法则是一种统计学习优化技术，它的目标是最小化误差平方之和来作为目标 $J (θ)$

1、线性最小二乘法

假设真实的模型是 $y = 2 x + 1$

1).首先是通过程序构造出100个( $x_{i}, y_{i}$

$x_{i}, y_{i}$

$x_{i}, y_{i}$

$x_{i}, y_{i}$

将以上式子写成如下矩阵的形式：

A = np.vstack([xi**0, xi**1])

$A^{T}$

$A^{T}$

至此找到了这100个( $x_{i}, y_{i}$

$x_{i}, y_{i}$

import scipy.linalg as la
import numpy as np
import matplotlib.pyplot as plt
m = 100
x = np.linspace(-1, 1, m)
y_exact = 1 + 2 * x
xi = x + np.random.normal(0, 0.05, 100)
yi = 1 + 2 * xi + np.random.normal(0, 0.05, 100)
A = np.vstack([xi**0, xi**1])
sol, r, rank, s = la.lstsq(A.T, yi)   #求取各个系数大小
y_fit = sol[0] + sol[1] * x
fig, ax = plt.subplots(figsize=(12, 8))
ax.plot(xi, yi, 'go', alpha=0.5, label='Simulated data')
ax.plot(x, y_exact, 'k', lw=2, label='True value y = 1 + 2x')
ax.plot(x, y_fit, 'b', lw=2, label='Least square fit')
ax.set_xlabel("x", fontsize=18)
ax.set_ylabel(”y", fontsize=18)
ax.legend(loc=2)         #设置曲线标注位置
plt.show()

2、二次函数最小二乘法
这个程序和上面的程序差不多，只不过模型变成了 $f (x_{i}) = a + b x + c x^{2}$

import scipy.linalg as la
import numpy as np
import matplotlib.pyplot as plt
x = np.linspace(-1, 1, 100)
a, b, c = 1, 2, 3
y_exact = a + b * x + c * x**2
m = 100
xi=1 - 2 * np.random.rand(m)
yi=a + b * xi + c * xi**2 + np.random.randn(m)
A = np.vstack([xi**0, xi**1, xi**2])
sol, r, rank, s = la.lstsq(A.T, yi)
y_fit = sol[0] + sol[1] * x + sol[2] * x**2
fig, ax = plt.subplots(figsize=(12, 4))
ax.plot(xi, yi, 'go', alpha=0.5, label='Simulated data')
ax.plot(x, y_exact, 'k', lw=2, label='True value $y = 1 + 2x + 3x^2$')
ax.plot(x, y_fit, 'b', lw=2, label='Least square fit')
ax.set_xlabel("x", fontsize=18)
ax.set_ylabel("y", fontsize=18)
ax.legend(loc=2)
plt.show()
具体结果展示如下：

 $f (x_{i}) = a + b x + c x^{2}$