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Python 三层神经网络 数字分类

椰麦吸 人气:0

前言

本文做的是基于三层神经网络实现手写数字分类,神经网络设计是设计复杂深度学习算法应用的基础,本文将介绍如何设计一个三层神经网络模型来实现手写数字分类。首先介绍如何利用高级编程语言Python搭建神经网络训练和推断框架来实现手写数字分类的训练和使用。

本文实验文档下载

一、神经网络组成

一个完整的神经网络通常由多个基本的网络层堆叠而成。本实验中的三层全连接神经网络由三个全连接层构成,在每两个全连接层之间会插入ReLU激活函数引入非线性变换,最后使用Softmax层计算交叉嫡损失,如下图所示。因此本实验中使用的基本单元包括全连接层、ReLU激活函数、Softmax损失函数。

二、代码实现

1.引入库

import numpy as np
import struct
import os

2.导入数据集

MNIST_DIR = "mnist_data"
TRAIN_DATA = "train-images-idx3-ubyte"
TRAIN_LABEL = "train-labels-idx1-ubyte"
TEST_DATA = "t10k-images-idx3-ubyte"
TEST_LABEL = "t10k-labels-idx1-ubyte"

数据集链接

数据集下载后一定记得解压

3.全连接层

class FullyConnectedLayer(object):
    def __init__(self, num_input, num_output):  # 全连接层初始化
        self.num_input = num_input
        self.num_output = num_output
    def init_param(self, std=0.01):  # 参数初始化
        self.weight = np.random.normal(loc=0, scale=std, size=(self.num_input, self.num_output))
        self.bias = np.zeros([1, self.num_output])
    def forward(self, input):  # 前向传播计算
        self.input = input
        self.output = np.dot(self.input,self.weight)+self.bias
        return self.output
    def backward(self, top_diff):  # 反向传播的计算
        self.d_weight =np.dot(self.input.T,top_diff) 
        self.d_bias = top_diff #
        bottom_diff = np.dot(top_diff,self.weight.T) 
        return bottom_diff
    def update_param(self, lr):  # 参数更新
        self.weight = self.weight - lr * self.d_weight   
        self.bias = self.bias - lr * self.d_bias    
    def load_param(self, weight, bias):  # 参数加载
        assert self.weight.shape == weight.shape
        assert self.bias.shape == bias.shape
        self.weight = weight
        self.bias = bias
    def save_param(self):  # 参数保存
        return self.weight, self.bias

4.ReLU激活函数层

class ReLULayer(object):
    def forward(self, input):  # 前向传播的计算
        self.input = input
        output = np.maximum(self.input,0)  
        return output
    def backward(self, top_diff):  # 反向传播的计算
        b = self.input
        b[b>0] =1
        b[b<0] = 0
        bottom_diff = np.multiply(b,top_diff)
        return bottom_diff

5.Softmax损失层

class SoftmaxLossLayer(object):
    def forward(self, input):  # 前向传播的计算
        input_max = np.max(input, axis=1, keepdims=True)
        input_exp = np.exp(input- input_max)#(64,10)
        partsum = np.sum(input_exp,axis=1)
        sum = np.tile(partsum,(10,1))
        self.prob = input_exp / sum.T
        return self.prob
    def get_loss(self, label):   # 计算损失
        self.batch_size = self.prob.shape[0]
        self.label_onehot = np.zeros_like(self.prob)
        self.label_onehot[np.arange(self.batch_size), label] = 1.0
        loss = -np.sum(self.label_onehot*np.log(self.prob)) / self.batch_size
        return loss
    def backward(self):  # 反向传播的计算
        bottom_diff = (self.prob - self.label_onehot)/self.batch_size
        return bottom_diff

6.网络训练与推断模块

class MNIST_MLP(object):
    def __init__(self, batch_size=64, input_size=784, hidden1=32, hidden2=16, out_classes=10, lr=0.01, max_epoch=1,print_iter=100):
        self.batch_size = batch_size
        self.input_size = input_size
        self.hidden1 = hidden1
        self.hidden2 = hidden2
        self.out_classes = out_classes
        self.lr = lr
        self.max_epoch = max_epoch
        self.print_iter = print_iter

    def shuffle_data(self):
        np.random.shuffle(self.train_data)

    def build_model(self):  # 建立网络结构
        self.fc1 = FullyConnectedLayer(self.input_size, self.hidden1)
        self.relu1 = ReLULayer()
        self.fc2 = FullyConnectedLayer(self.hidden1, self.hidden2)  
        self.relu2 = ReLULayer()  
        self.fc3 = FullyConnectedLayer(self.hidden2, self.out_classes)
        self.softmax = SoftmaxLossLayer()
        self.update_layer_list = [self.fc1, self.fc2, self.fc3]

    def init_model(self):
        for layer in self.update_layer_list:
            layer.init_param()

    def forward(self, input):  # 神经网络的前向传播
        h1 = self.fc1.forward(input)
        h1 = self.relu1.forward(h1)
        h2 = self.fc2.forward(h1)  
        h2 = self.relu2.forward(h2)  
        h3 = self.fc3.forward(h2)  
        self.prob = self.softmax.forward(h3)
        return self.prob

    def backward(self):  # 神经网络的反向传播
        dloss = self.softmax.backward()
        dh2 = self.fc3.backward(dloss)  
        dh2 = self.relu2.backward(dh2)  
        dh1 = self.fc2.backward(dh2)
        dh1 = self.relu1.backward(dh1)  
        dh1 = self.fc1.backward(dh1)

    def update(self, lr):
        for layer in self.update_layer_list:
            layer.update_param(lr)

    def load_mnist(self, file_dir, is_images='True'):
        bin_file = open(file_dir, 'rb')
        bin_data = bin_file.read()
        bin_file.close()
        if is_images:
            fmt_header = '>iiii'
            magic, num_images, num_rows, num_cols = struct.unpack_from(fmt_header, bin_data, 0)
        else:
            fmt_header = '>ii'
            magic, num_images = struct.unpack_from(fmt_header, bin_data, 0)
            num_rows, num_cols = 1, 1
        data_size = num_images * num_rows * num_cols
        mat_data = struct.unpack_from('>' + str(data_size) + 'B', bin_data, struct.calcsize(fmt_header))
        mat_data = np.reshape(mat_data, [num_images, num_rows * num_cols])
        return mat_data

    def load_data(self):
        train_images = self.load_mnist(os.path.join(MNIST_DIR, TRAIN_DATA), True)
        train_labels = self.load_mnist(os.path.join(MNIST_DIR, TRAIN_LABEL), False)
        test_images = self.load_mnist(os.path.join(MNIST_DIR, TEST_DATA), True)
        test_labels = self.load_mnist(os.path.join(MNIST_DIR, TEST_LABEL), False)
        self.train_data = np.append(train_images, train_labels, axis=1)
        self.test_data = np.append(test_images, test_labels, axis=1)


    def load_model(self, param_dir):
        params = np.load(param_dir).item()
        self.fc1.load_param(params['w1'], params['b1'])
        self.fc2.load_param(params['w2'], params['b2'])
        self.fc3.load_param(params['w3'], params['b3'])

    def save_model(self, param_dir):
        params = {}
        params['w1'], params['b1'] = self.fc1.save_param()
        params['w2'], params['b2'] = self.fc2.save_param()
        params['w3'], params['b3'] = self.fc3.save_param()
        np.save(param_dir, params)

    def train(self):
        max_batch_1 = self.train_data.shape[0] / self.batch_size
        max_batch = int(max_batch_1)
        for idx_epoch in range(self.max_epoch):
            mlp.shuffle_data()
            for idx_batch in range(max_batch):
                batch_images = self.train_data[idx_batch * self.batch_size:(idx_batch + 1) * self.batch_size, :-1]
                batch_labels = self.train_data[idx_batch * self.batch_size:(idx_batch + 1) * self.batch_size, -1]
                prob = self.forward(batch_images)
                loss = self.softmax.get_loss(batch_labels)
                self.backward()
                self.update(self.lr)
                if idx_batch % self.print_iter == 0:
                    print('Epoch %d, iter %d, loss: %.6f' % (idx_epoch, idx_batch, loss))

    def evaluate(self):
        pred_results = np.zeros([self.test_data.shape[0]])
        for idx in range(int(self.test_data.shape[0] / self.batch_size)):
            batch_images = self.test_data[idx * self.batch_size:(idx + 1) * self.batch_size, :-1]
            prob = self.forward(batch_images)
            pred_labels = np.argmax(prob, axis=1)
            pred_results[idx * self.batch_size:(idx + 1) * self.batch_size] = pred_labels
        accuracy = np.mean(pred_results == self.test_data[:, -1])
        print('Accuracy in test set: %f' % accuracy)

7.完整流程

if __name__ == '__main__':
    h1, h2, e = 128, 64, 20
    mlp = MNIST_MLP(hidden1=h1, hidden2=h2,max_epoch=e)
    mlp.load_data()
    mlp.build_model()
    mlp.init_model()
    mlp.train()
    mlp.save_model('mlp-%d-%d-%depoch.npy' % (h1,h2,e))
    mlp.load_model('mlp-%d-%d-%depoch.npy' % (h1, h2, e))
    mlp.evaluate()

三、代码debug

pycharm在初次运行时,会在以下代码报错:

mlp.load_model('mlp-%d-%d-%depoch.npy' % (h1, h2, e))

ValueError: Object arrays cannot be loaded when allow_pickle=False

经过上网查看原因后,发现是numpy版本太高引起

解决方法:

点击报错处,进入源代码(.py),注释掉693行:

#if not allow_pickle:
    #raise ValueError("Object arrays cannot be loaded when "
                   #  "allow_pickle=False")
 
    # Now read the actual data.
    if dtype.hasobject:
        # The array contained Python objects. We need to unpickle the data.
        #if not allow_pickle:
            #raise ValueError("Object arrays cannot be loaded when "
                           #  "allow_pickle=False")
        if pickle_kwargs is None:
            pickle_kwargs = {}
        try:
            array = pickle.load(fp, **pickle_kwargs)
        except UnicodeError as err:
            if sys.version_info[0] >= 3:
                # Friendlier error message

四、结果展示

在不改变网络结构的条件下我通过自行调节参数主要体现在:

if __name__ == '__main__':
    h1, h2, e = 128, 64, 20
class MNIST_MLP(object):
    def __init__(self, batch_size=64, input_size=784, hidden1=32, hidden2=16, out_classes=10, lr=0.01, max_epoch=1,print_iter=100):

为了提高准确率,当然你可以从其他方面进行修改,以下是我得出的输出结果:

补充

ValueError: Object arrays cannot be loaded when allow_pickle=False解决方案

在读.npz文件时报下面错误:

population_data=np.load("./data/populations.npz")
print(population_data.files)#里面有两个数组   data  feature_names
data=population_data['data']
print(data)
print(population_data['feature_names'])

报错:

['data', 'feature_names']
Traceback (most recent call last):
  File "E:/pycharm file/使用scikit-learn构建模型/构建一元线性模型.py", line 32, in <module>
    data=population_data['data']
  File "E:\pycharm file\venv\lib\site-packages\numpy\lib\npyio.py", line 262, in __getitem__
    pickle_kwargs=self.pickle_kwargs)
  File "E:\pycharm file\venv\lib\site-packages\numpy\lib\format.py", line 692, in read_array
    raise ValueError("Object arrays cannot be loaded when "
ValueError: Object arrays cannot be loaded when allow_pickle=False

报错为:numpy版本太高,我用的是1.16.3,应该降级为1.16.2

两种解决方案:

Numpy 1.16.3几天前发布了。从发行版本中说明:“函数np.load()和np.lib.format.read_array()采用allow_pickle关键字,现在默认为False以响应CVE-2019-6446 < nvd.nist.gov/vuln/detail / CVE-2019-6446 >“。降级到1.16.2对我有帮助,因为错误发生在一些library内部

第一种:点击报错处,进入源代码(.py),注释掉693行:

#if not allow_pickle:
    #raise ValueError("Object arrays cannot be loaded when "
                   #  "allow_pickle=False")
 
    # Now read the actual data.
    if dtype.hasobject:
        # The array contained Python objects. We need to unpickle the data.
        #if not allow_pickle:
            #raise ValueError("Object arrays cannot be loaded when "
                           #  "allow_pickle=False")
        if pickle_kwargs is None:
            pickle_kwargs = {}
        try:
            array = pickle.load(fp, **pickle_kwargs)
        except UnicodeError as err:
            if sys.version_info[0] >= 3:
                # Friendlier error message

修改后成功解决了问题,但改掉源码不知道会不会有后遗症

第二种:降级numpy版本

pip install numpy==1.16.2

上述两种方法都可以成功解决报错问题

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