Tensorflow学习教程------过拟合
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回归:过拟合情况
/
分类过拟合
防止过拟合的方法有三种:
1 增加数据集
2 添加正则项
3 Dropout,意思就是训练的时候隐层神经元每次随机抽取部分参与训练。部分不参与
最后对之前普通神经网络分类mnist数据集的代码进行优化,初始化权重参数的时候采用截断正态分布,偏置项加常数,采用dropout防止过拟合,加三层隐层神经元,最后的准确率达到97%以上。代码如下
# coding: utf-8 # 微信公众号:深度学习与神经网络 # Github:https://github.com/Qinbf # 优酷频道:http://i.youku.com/sdxxqbf import tensorflow as tf from tensorflow.examples.tutorials.mnist import input_data #载入数据集 mnist = input_data.read_data_sets("MNIST_data",one_hot=True) #每个批次的大小 batch_size = 100 #计算一共有多少个批次 n_batch = mnist.train.num_examples // batch_size #定义两个placeholder x = tf.placeholder(tf.float32,[None,784]) y = tf.placeholder(tf.float32,[None,10]) keep_prob=tf.placeholder(tf.float32) #创建一个简单的神经网络 W1 = tf.Variable(tf.truncated_normal([784,2000],stddev=0.1)) b1 = tf.Variable(tf.zeros([2000])+0.1) L1 = tf.nn.tanh(tf.matmul(x,W1)+b1) L1_drop = tf.nn.dropout(L1,keep_prob) W2 = tf.Variable(tf.truncated_normal([2000,2000],stddev=0.1)) b2 = tf.Variable(tf.zeros([2000])+0.1) L2 = tf.nn.tanh(tf.matmul(L1_drop,W2)+b2) L2_drop = tf.nn.dropout(L2,keep_prob) W3 = tf.Variable(tf.truncated_normal([2000,1000],stddev=0.1)) b3 = tf.Variable(tf.zeros([1000])+0.1) L3 = tf.nn.tanh(tf.matmul(L2_drop,W3)+b3) L3_drop = tf.nn.dropout(L3,keep_prob) W4 = tf.Variable(tf.truncated_normal([1000,10],stddev=0.1)) b4 = tf.Variable(tf.zeros([10])+0.1) prediction = tf.nn.softmax(tf.matmul(L3_drop,W4)+b4) #二次代价函数 # loss = tf.reduce_mean(tf.square(y-prediction)) loss = tf.reduce_mean(tf.nn.softmax_cross_entropy_with_logits(labels=y,logits=prediction)) #使用梯度下降法 train_step = tf.train.GradientDescentOptimizer(0.2).minimize(loss) #初始化变量 init = tf.global_variables_initializer() #结果存放在一个布尔型列表中 correct_prediction = tf.equal(tf.argmax(y,1),tf.argmax(prediction,1))#argmax返回一维张量中最大的值所在的位置 #求准确率 accuracy = tf.reduce_mean(tf.cast(correct_prediction,tf.float32)) with tf.Session() as sess: sess.run(init) for epoch in range(31): for batch in range(n_batch): batch_xs,batch_ys = mnist.train.next_batch(batch_size) sess.run(train_step,feed_dict={x:batch_xs,y:batch_ys,keep_prob:0.7}) test_acc = sess.run(accuracy,feed_dict={x:mnist.test.images,y:mnist.test.labels,keep_prob:1.0}) train_acc = sess.run(accuracy,feed_dict={x:mnist.train.images,y:mnist.train.labels,keep_prob:1.0}) print("Iter " + str(epoch) + ",Testing Accuracy " + str(test_acc) +",Training Accuracy " + str(train_acc))
结果如下
Iter 0,Testing Accuracy 0.913,Training Accuracy 0.909146 Iter 1,Testing Accuracy 0.9318,Training Accuracy 0.927218 Iter 2,Testing Accuracy 0.9397,Training Accuracy 0.9362 Iter 3,Testing Accuracy 0.943,Training Accuracy 0.940637 Iter 4,Testing Accuracy 0.9449,Training Accuracy 0.945746 Iter 5,Testing Accuracy 0.9489,Training Accuracy 0.949491 Iter 6,Testing Accuracy 0.9505,Training Accuracy 0.9522 Iter 7,Testing Accuracy 0.9542,Training Accuracy 0.956 Iter 8,Testing Accuracy 0.9543,Training Accuracy 0.957782 Iter 9,Testing Accuracy 0.954,Training Accuracy 0.959 Iter 10,Testing Accuracy 0.9558,Training Accuracy 0.959582 Iter 11,Testing Accuracy 0.9594,Training Accuracy 0.963146 Iter 12,Testing Accuracy 0.959,Training Accuracy 0.963746 Iter 13,Testing Accuracy 0.961,Training Accuracy 0.964764 Iter 14,Testing Accuracy 0.9605,Training Accuracy 0.9658 Iter 15,Testing Accuracy 0.9635,Training Accuracy 0.967528 Iter 16,Testing Accuracy 0.9639,Training Accuracy 0.968582 Iter 17,Testing Accuracy 0.9644,Training Accuracy 0.969309 Iter 18,Testing Accuracy 0.9651,Training Accuracy 0.969564 Iter 19,Testing Accuracy 0.9664,Training Accuracy 0.971073 Iter 20,Testing Accuracy 0.9654,Training Accuracy 0.971746 Iter 21,Testing Accuracy 0.9664,Training Accuracy 0.971764 Iter 22,Testing Accuracy 0.9682,Training Accuracy 0.973128 Iter 23,Testing Accuracy 0.9679,Training Accuracy 0.973346 Iter 24,Testing Accuracy 0.9681,Training Accuracy 0.975164 Iter 25,Testing Accuracy 0.969,Training Accuracy 0.9754 Iter 26,Testing Accuracy 0.9706,Training Accuracy 0.975764 Iter 27,Testing Accuracy 0.9694,Training Accuracy 0.975837 Iter 28,Testing Accuracy 0.9703,Training Accuracy 0.977109 Iter 29,Testing Accuracy 0.97,Training Accuracy 0.976946 Iter 30,Testing Accuracy 0.9715,Training Accuracy 0.977491
Testing Accuracy和Training Accuracy之间的差距为0.005991
dropout值设置为1的时候,
Iter 0,Testing Accuracy 0.9471,Training Accuracy 0.955037 Iter 1,Testing Accuracy 0.9597,Training Accuracy 0.9738 Iter 2,Testing Accuracy 0.9616,Training Accuracy 0.980928 Iter 3,Testing Accuracy 0.9661,Training Accuracy 0.985091 Iter 4,Testing Accuracy 0.9674,Training Accuracy 0.987709 Iter 5,Testing Accuracy 0.9692,Training Accuracy 0.989255 Iter 6,Testing Accuracy 0.9692,Training Accuracy 0.990146 Iter 7,Testing Accuracy 0.9708,Training Accuracy 0.991182 Iter 8,Testing Accuracy 0.9711,Training Accuracy 0.991982 Iter 9,Testing Accuracy 0.9712,Training Accuracy 0.9924 Iter 10,Testing Accuracy 0.971,Training Accuracy 0.992691 Iter 11,Testing Accuracy 0.9706,Training Accuracy 0.993055 Iter 12,Testing Accuracy 0.971,Training Accuracy 0.993309 Iter 13,Testing Accuracy 0.9717,Training Accuracy 0.993528 Iter 14,Testing Accuracy 0.9719,Training Accuracy 0.993764 Iter 15,Testing Accuracy 0.9715,Training Accuracy 0.993927 Iter 16,Testing Accuracy 0.9715,Training Accuracy 0.994091 Iter 17,Testing Accuracy 0.9714,Training Accuracy 0.994291 Iter 18,Testing Accuracy 0.9719,Training Accuracy 0.9944 Iter 19,Testing Accuracy 0.9719,Training Accuracy 0.994564 Iter 20,Testing Accuracy 0.9722,Training Accuracy 0.994673 Iter 21,Testing Accuracy 0.9725,Training Accuracy 0.994855 Iter 22,Testing Accuracy 0.9731,Training Accuracy 0.994891 Iter 23,Testing Accuracy 0.9721,Training Accuracy 0.994928 Iter 24,Testing Accuracy 0.9722,Training Accuracy 0.995018 Iter 25,Testing Accuracy 0.9725,Training Accuracy 0.995109 Iter 26,Testing Accuracy 0.9729,Training Accuracy 0.9952 Iter 27,Testing Accuracy 0.9726,Training Accuracy 0.995255 Iter 28,Testing Accuracy 0.9725,Training Accuracy 0.995327 Iter 29,Testing Accuracy 0.9725,Training Accuracy 0.995364 Iter 30,Testing Accuracy 0.9722,Training Accuracy 0.995437
Testing Accuracy和Training Accuracy之间的差距为0.23237,本次实验中只有60000个样本,当样本量到达几百万的时候,这个差距值会更大,也就是训练出的模型在训练数据集中效果非常好,几乎满足了任意一个样本,但是在测试数据集中效果却很差,此时就是典型的过拟合现象。
所以一般稍微复杂的网络中都会加入dropout,防止过拟合。
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