title: "Python实现bp神经网络识别MNIST数据集"
date: 2018-06-18T14:01:49+08:00
tags: [""]
categories: ["python"]
前言
训练时读入的是.mat格式的训练集,测试正确率时用的是png格式的图片
代码
#!/usr/bin/env python3
# coding=utf-8
import math
import sys
import os
import numpy as np
from PIL import Image
import scipy.io as sio
def sigmoid(x):
return np.array(list(map(lambda i: 1 / (1 + math.exp(-i)), x)))
def get_train_pattern():
# 返回训练集的特征和标签
# current_dir = os.getcwd()
current_dir = "/home/lxp/F/developing_folder/intelligence_system/bpneuralnet/"
train = sio.loadmat(current_dir + "mnist_train.mat")["mnist_train"]
train_label = sio.loadmat(
current_dir + "mnist_train_labels.mat")["mnist_train_labels"]
train = np.where(train > 180, 1, 0) # 二值化
return train, train_label
def get_test_pattern():
# 返回测试集
# base_url = os.getcwd() + "/test/"
base_url = "/home/lxp/F/developing_folder/intelligence_system/bpneuralnet/mnist_test/"
test_img_pattern = []
for i in range(10):
img_url = os.listdir(base_url + str(i))
t = []
for url in img_url:
img = Image.open(base_url + str(i) + "/" + url)
img = img.convert('1') # 二值化
img_array = np.asarray(img, 'i') # 转化为int数组
img_vector = img_array.reshape(
img_array.shape[0] * img_array.shape[1]) # 展开成一维数组
t.append(img_vector)
test_img_pattern.append(t)
return test_img_pattern
class BPNetwork:
# 神经网络类
def __init__(self, in_count, hiden_count, out_count, in_rate, hiden_rate):
"""
:param in_count: 输入层数
:param hiden_count: 隐藏层数
:param out_count: 输出层数
:param in_rate: 输入层学习率
:param hiden_rate: 隐藏层学习率
"""
# 各个层的节点数量
self.in_count = in_count
self.hiden_count = hiden_count
self.out_count = out_count
# 输入层到隐藏层连线的权重随机初始化
self.w1 = 0.2 *
np.random.random((self.in_count, self.hiden_count)) - 0.1
# 隐藏层到输出层连线的权重随机初始化
self.w2 = 0.2 *
np.random.random((self.hiden_count, self.out_count)) - 0.1
# 隐藏层偏置向量
self.hiden_offset = np.zeros(self.hiden_count)
# 输出层偏置向量
self.out_offset = np.zeros(self.out_count)
# 输入层学习率
self.in_rate = in_rate
# 隐藏层学习率
self.hiden_rate = hiden_rate
def train(self, train_img_pattern, train_label):
if self.in_count != len(train_img_pattern[0]):
sys.exit("输入层维数与样本维数不等")
# for num in range(10):
# for num in range(10):
for i in range(len(train_img_pattern)):
if i % 5000 == 0:
print(i)
# 生成目标向量
target = [0] * 10
target[train_label[i][0]] = 1
# for t in range(len(train_img_pattern[num])):
# 前向传播
# 隐藏层值等于输入层*w1+隐藏层偏置
hiden_value = np.dot(
train_img_pattern[i], self.w1) + self.hiden_offset
hiden_value = sigmoid(hiden_value)
# 计算输出层的输出
out_value = np.dot(hiden_value, self.w2) + self.out_offset
out_value = sigmoid(out_value)
# 反向更新
error = target - out_value
# 计算输出层误差
out_error = out_value * (1 - out_value) * error
# 计算隐藏层误差
hiden_error = hiden_value *
(1 - hiden_value) * np.dot(self.w2, out_error)
# 更新w2,w2是j行k列的矩阵,存储隐藏层到输出层的权值
for k in range(self.out_count):
# 更新w2第k列的值,连接隐藏层所有节点到输出层的第k个节点的边
# 隐藏层学习率×输入层误差×隐藏层的输出值
self.w2[:, k] += self.hiden_rate * out_error[k] * hiden_value
# 更新w1
for j in range(self.hiden_count):
self.w1[:, j] += self.in_rate *
hiden_error[j] * train_img_pattern[i]
# 更新偏置向量
self.out_offset += self.hiden_rate * out_error
self.hiden_offset += self.in_rate * hiden_error
def test(self, test_img_pattern):
"""
测试神经网络的正确率
:param test_img_pattern[num][t]表示数字num的第t张图片
:return:
"""
right = np.zeros(10)
test_sum = 0
for num in range(10): # 10个数字
# print("正在识别", num)
num_count = len(test_img_pattern[num])
test_sum += num_count
for t in range(num_count): # 数字num的第t张图片
hiden_value = np.dot(
test_img_pattern[num][t], self.w1) + self.hiden_offset
hiden_value = sigmoid(hiden_value)
out_value = np.dot(hiden_value, self.w2) + self.out_offset
out_value = sigmoid(out_value)
# print(out_value)
if np.argmax(out_value) == num:
# 识别正确
right[num] += 1
print("数字%d的识别正确率%f" % (num, right[num] / num_count))
# 平均识别率
print("平均识别率为:", sum(right) / test_sum)
"""
def test1:
"""
def run():
# 读入训练集
train, train_label = get_train_pattern()
# 读入测试图片
test_pattern = get_test_pattern()
# 神经网络配置参数
in_count = 28 * 28
hiden_count = 6
out_count = 10
in_rate = 0.1
hiden_rate = 0.1
bpnn = BPNetwork(in_count, hiden_count, out_count, in_rate, hiden_rate)
bpnn.train(train, train_label)
bpnn.test(test_pattern)
# 单张测试
# 识别单独一张图片,返回识别结果
"""
while True:
img_name = input("输入要识别的图片
")
base_url = "/home/lxp/F/developing_folder/intelligence_system/bpneuralnet/"
img_url = base_url + img_name
img = Image.open(img_url)
img = img.convert('1') # 二值化
img_array = np.asarray(img, 'i') # 转化为int数组
# 得到图片的特征向量
img_v = img_array.reshape(img_array.shape[0] * img_array.shape[1]) # 展开成一维数组
bpnn.test1(img_v)
"""
if __name__ == "__main__":
run()
# train, train_label = get_train_pattern()
# print(train_label[5][0])
# test = get_test_pattern()
数据集下载:
链接: https://pan.baidu.com/s/1ldWTSqVUm6l1cc4EDOzHpQ 提取码: mm93