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kaggle+mnist实现手写字体识别

这篇文章主要为大家详细介绍了kaggle+mnist实现手写字体识别,具有一定的参考价值,感兴趣的小伙伴们可以参考一下

现在的许多手写字体识别代码都是基于已有的mnist手写字体数据集进行的,而kaggle需要用到网站上给出的数据集并生成测试集的输出用于提交。这里选择keras搭建卷积网络进行识别,可以直接生成测试集的结果,最终结果识别率大概97%左右的样子。

# -*- coding: utf-8 -*-
"""
Created on Tue Jun 6 19:07:10 2017

@author: Administrator
"""

from keras.models import Sequential
from keras.layers import Dense, Dropout, Activation, Flatten 
from keras.layers import Convolution2D, MaxPooling2D 
from keras.utils import np_utils
import os
import pandas as pd
import numpy as np
from tensorflow.examples.tutorials.mnist import input_data
from keras import backend as K
import tensorflow as tf

# 全局变量 
batch_size = 100 
nb_classes = 10 
epochs = 20
# input image dimensions 
img_rows, img_cols = 28, 28 
# number of convolutional filters to use 
nb_filters = 32 
# size of pooling area for max pooling 
pool_size = (2, 2) 
# convolution kernel size 
kernel_size = (3, 3) 

inputfile='F:/data/kaggle/mnist/train.csv'
inputfile2= 'F:/data/kaggle/mnist/test.csv'
outputfile= 'F:/data/kaggle/mnist/test_label.csv'


pwd = os.getcwd()
os.chdir(os.path.dirname(inputfile)) 
train= pd.read_csv(os.path.basename(inputfile)) #从训练数据文件读取数据
os.chdir(pwd)

pwd = os.getcwd()
os.chdir(os.path.dirname(inputfile)) 
test= pd.read_csv(os.path.basename(inputfile2)) #从测试数据文件读取数据
os.chdir(pwd)

x_train=train.iloc[:,1:785] #得到特征数据
y_train=train['label']
y_train = np_utils.to_categorical(y_train, 10)

mnist=input_data.read_data_sets("MNIST_data/",one_hot=True) #导入数据
x_test=mnist.test.images
y_test=mnist.test.labels
# 根据不同的backend定下不同的格式 
if K.image_dim_ordering() == 'th': 
 x_train=np.array(x_train)
 test=np.array(test)
 x_train = x_train.reshape(x_train.shape[0], 1, img_rows, img_cols) 
 x_test = x_test.reshape(x_test.shape[0], 1, img_rows, img_cols) 
 input_shape = (1, img_rows, img_cols) 
 test = test.reshape(test.shape[0], 1, img_rows, img_cols) 
else: 
 x_train=np.array(x_train)
 test=np.array(test)
 x_train = x_train.reshape(x_train.shape[0], img_rows, img_cols, 1) 
 X_test = x_test.reshape(x_test.shape[0], img_rows, img_cols, 1) 
 test = test.reshape(test.shape[0], img_rows, img_cols, 1) 
 input_shape = (img_rows, img_cols, 1) 

x_train = x_train.astype('float32') 
x_test = X_test.astype('float32') 
test = test.astype('float32') 
x_train /= 255 
X_test /= 255
test/=255 
print('X_train shape:', x_train.shape) 
print(x_train.shape[0], 'train samples') 
print(x_test.shape[0], 'test samples') 
print(test.shape[0], 'testOuput samples') 

model=Sequential()#model initial
model.add(Convolution2D(nb_filters, (kernel_size[0], kernel_size[1]), 
      padding='same', 
      input_shape=input_shape)) # 卷积层1 
model.add(Activation('relu')) #激活层 
model.add(Convolution2D(nb_filters, (kernel_size[0], kernel_size[1]))) #卷积层2 
model.add(Activation('relu')) #激活层 
model.add(MaxPooling2D(pool_size=pool_size)) #池化层 
model.add(Dropout(0.25)) #神经元随机失活 
model.add(Flatten()) #拉成一维数据 
model.add(Dense(128)) #全连接层1 
model.add(Activation('relu')) #激活层 
model.add(Dropout(0.5)) #随机失活 
model.add(Dense(nb_classes)) #全连接层2 
model.add(Activation('softmax')) #Softmax评分 

#编译模型 
model.compile(loss='categorical_crossentropy', 
    optimizer='adadelta', 
    metrics=['accuracy']) 
#训练模型 

model.fit(x_train, y_train, batch_size=batch_size, epochs=epochs,verbose=1) 
model.predict(x_test)
#评估模型 
score = model.evaluate(x_test, y_test, verbose=0) 
print('Test score:', score[0]) 
print('Test accuracy:', score[1]) 

y_test=model.predict(test)

sess=tf.InteractiveSession()
y_test=sess.run(tf.arg_max(y_test,1))
y_test=pd.DataFrame(y_test)
y_test.to_csv(outputfile)

以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持。

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