1、概述
线性方程求解
线性回归模型
最小二乘法
求解线程回归
1、代码实现
0.引入依赖
import numpy as np import matplotlib.pyplot as plt
1.导入数据(data.csv)
points = np.genfromtxt('data.csv',delimiter=',') # 提取points中的两列数据,分别作为x,y x=points[:,0] #取所有的第一列 y=points[:,1] #取所有的第二列 # 用plt画出散点图 plt.scatter(x,y) plt.show()
2. 定义损失函数
# 损失函数是系数的函数,还要传入数据的x,y def computer_cost(w,b,points): total_cost = 0 M = len(points) # 逐点计算平方损失误差,然后求平均值 for i in range(M): x=points[i,0] y=points[i,1] total_cost += (y - w * x - b) ** 2 return total_cost/M
3. 定义核心算法拟合函数
# 先定义一个球均值的函数 def average(data): sum = 0 num = len(data) for i in range(num): sum += data[i] return sum/num # 定义核心拟合函数 def fit(points): M = len(points) x_bar= average(points[:,0]) sum_yx = 0 sum_x2 = 0 sum_delta = 0 for i in range(M): x=points[i,0] y=points[i,1] sum_yx += y * (x - x_bar) sum_x2 += x ** 2 # 根据公式计算w w = sum_yx / (sum_x2 - M * (x_bar ** 2)) for i in range(M): x=points[i,0] y=points[i,1] sum_delta += (y - w * x) b = sum_delta / M return w,b
4. 测试
w,b = fit(points) print("w = " ,w) print("b = " , b) cost = computer_cost(w,b,points) print("cost = ", cost)
5. 画出拟合曲线
plt.scatter(x,y) # 针对每一个x,计算出预测的y值 pred_y = w * x + b plt.plot(x,pred_y,c='r') plt.show()
