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linear_unit.py
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linear_unit.py
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#!/usr/bin/env python
# -*- coding: UTF-8 -*-
from perceptron import Perceptron
#定义激活函数f
f = lambda x: x
class LinearUnit(Perceptron):
def __init__(self, input_num):
'''初始化线性单元,设置输入参数的个数'''
Perceptron.__init__(self, input_num, f)
def get_training_dataset():
'''
捏造5个人的收入数据
'''
# 构建训练数据
# 输入向量列表,每一项是工作年限
input_vecs = [[5], [3], [8], [1.4], [10.1]]
# 期望的输出列表,月薪,注意要与输入一一对应
labels = [5500, 2300, 7600, 1800, 11400]
return input_vecs, labels
def train_linear_unit():
'''
使用数据训练线性单元
'''
# 创建感知器,输入参数的特征数为1(工作年限)
lu = LinearUnit(1)
# 训练,迭代10轮, 学习速率为0.01
input_vecs, labels = get_training_dataset()
lu.train(input_vecs, labels, 10, 0.01)
#返回训练好的线性单元
return lu
def plot(linear_unit):
import matplotlib.pyplot as plt
input_vecs, labels = get_training_dataset()
fig = plt.figure()
ax = fig.add_subplot(111)
ax.scatter(map(lambda x: x[0], input_vecs), labels)
weights = linear_unit.weights
bias = linear_unit.bias
x = range(0,12,1)
y = map(lambda x:weights[0] * x + bias, x)
ax.plot(x, y)
plt.show()
if __name__ == '__main__':
'''训练线性单元'''
linear_unit = train_linear_unit()
# 打印训练获得的权重
print linear_unit
# 测试
print 'Work 3.4 years, monthly salary = %.2f' % linear_unit.predict([3.4])
print 'Work 15 years, monthly salary = %.2f' % linear_unit.predict([15])
print 'Work 1.5 years, monthly salary = %.2f' % linear_unit.predict([1.5])
print 'Work 6.3 years, monthly salary = %.2f' % linear_unit.predict([6.3])
plot(linear_unit)