keras实现常用深度学习模型LeNet,AlexNet,ZFNet,VGGNet,GoogleNet,Resnet

转自:https://blog.csdn.net/wang1127248268/article/details/77258055

LeNet

#coding=utf-8
from keras.models import Sequential
from keras.layers import Dense,Flatten
from keras.layers.convolutional import Conv2D,MaxPooling2D
from keras.utils.np_utils import to_categorical
import cPickle
import gzip
import numpy as np
seed = 7
np.random.seed(seed)

data = gzip.open(r'/media/wmy/document/BigData/kaggle/Digit Recognizer/mnist.pkl.gz')
train_set,valid_set,test_set = cPickle.load(data)
#train_x is [0,1]
train_x = train_set[0].reshape((-1,28,28,1))
train_y = to_categorical(train_set[1])

valid_x = valid_set[0].reshape((-1,28,28,1))
valid_y = to_categorical(valid_set[1])

test_x = test_set[0].reshape((-1,28,28,1))
test_y = to_categorical(test_set[1])

model = Sequential()  
model.add(Conv2D(32,(5,5),strides=(1,1),input_shape=(28,28,1),padding='valid',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(64,(5,5),strides=(1,1),padding='valid',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Flatten())  
model.add(Dense(100,activation='relu'))  
model.add(Dense(10,activation='softmax'))  
model.compile(optimizer='sgd',loss='categorical_crossentropy',metrics=['accuracy'])  
model.summary()  

model.fit(train_x,train_y,validation_data=(valid_x,valid_y),batch_size=20,epochs=20,verbose=2)  
#[0.031825309940411217, 0.98979999780654904]  
print model.evaluate(test_x,test_y,batch_size=20,verbose=2)  

AlexNet

#coding=utf-8  
from keras.models import Sequential  
from keras.layers import Dense,Flatten,Dropout  
from keras.layers.convolutional import Conv2D,MaxPooling2D  
from keras.utils.np_utils import to_categorical  
import numpy as np  
seed = 7  
np.random.seed(seed)  

model = Sequential()  
model.add(Conv2D(96,(11,11),strides=(4,4),input_shape=(227,227,3),padding='valid',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Conv2D(256,(5,5),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Conv2D(384,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(384,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Flatten())  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(1000,activation='softmax'))  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary() 

ZFNet

#coding=utf-8  
from keras.models import Sequential  
from keras.layers import Dense,Flatten,Dropout  
from keras.layers.convolutional import Conv2D,MaxPooling2D  
from keras.utils.np_utils import to_categorical  
import numpy as np  
seed = 7  
np.random.seed(seed)  

model = Sequential()  
model.add(Conv2D(96,(7,7),strides=(2,2),input_shape=(224,224,3),padding='valid',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Conv2D(256,(5,5),strides=(2,2),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Conv2D(384,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(384,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(3,3),strides=(2,2)))  
model.add(Flatten())  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(1000,activation='softmax'))  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary()

VGG-13

#coding=utf-8  
from keras.models import Sequential  
from keras.layers import Dense,Flatten,Dropout  
from keras.layers.convolutional import Conv2D,MaxPooling2D  
import numpy as np  
seed = 7  
np.random.seed(seed)  

model = Sequential()  
model.add(Conv2D(64,(3,3),strides=(1,1),input_shape=(224,224,3),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(64,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(128,(3,2),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(128,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Flatten())  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(1000,activation='softmax'))  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary()  

VGG-16

#coding=utf-8  
from keras.models import Sequential  
from keras.layers import Dense,Flatten,Dropout  
from keras.layers.convolutional import Conv2D,MaxPooling2D  
import numpy as np  
seed = 7  
np.random.seed(seed)  

model = Sequential()  
model.add(Conv2D(64,(3,3),strides=(1,1),input_shape=(224,224,3),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(64,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(128,(3,2),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(128,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(256,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(Conv2D(512,(3,3),strides=(1,1),padding='same',activation='relu',kernel_initializer='uniform'))  
model.add(MaxPooling2D(pool_size=(2,2)))  
model.add(Flatten())  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(4096,activation='relu'))  
model.add(Dropout(0.5))  
model.add(Dense(1000,activation='softmax'))  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary()  

GoogleNet

#coding=utf-8  
from keras.models import Model  
from keras.layers import Input,Dense,Dropout,BatchNormalization,Conv2D,MaxPooling2D,AveragePooling2D,concatenate  
from keras.layers.convolutional import Conv2D,MaxPooling2D,AveragePooling2D  
import numpy as np  
seed = 7  
np.random.seed(seed)  

def Conv2d_BN(x, nb_filter,kernel_size, padding='same',strides=(1,1),name=None):  
    if name is not None:  
        bn_name = name + '_bn'  
        conv_name = name + '_conv'  
    else:  
        bn_name = None  
        conv_name = None  

    x = Conv2D(nb_filter,kernel_size,padding=padding,strides=strides,activation='relu',name=conv_name)(x)  
    x = BatchNormalization(axis=3,name=bn_name)(x)  
    return x  

def Inception(x,nb_filter):  
    branch1x1 = Conv2d_BN(x,nb_filter,(1,1), padding='same',strides=(1,1),name=None)  

    branch3x3 = Conv2d_BN(x,nb_filter,(1,1), padding='same',strides=(1,1),name=None)  
    branch3x3 = Conv2d_BN(branch3x3,nb_filter,(3,3), padding='same',strides=(1,1),name=None)  

    branch5x5 = Conv2d_BN(x,nb_filter,(1,1), padding='same',strides=(1,1),name=None)  
    branch5x5 = Conv2d_BN(branch5x5,nb_filter,(1,1), padding='same',strides=(1,1),name=None)  

    branchpool = MaxPooling2D(pool_size=(3,3),strides=(1,1),padding='same')(x)  
    branchpool = Conv2d_BN(branchpool,nb_filter,(1,1),padding='same',strides=(1,1),name=None)  

    x = concatenate([branch1x1,branch3x3,branch5x5,branchpool],axis=3)  

    return x  

inpt = Input(shape=(224,224,3))  
#padding = 'same',填充为(步长-1)/2,还可以用ZeroPadding2D((3,3))  
x = Conv2d_BN(inpt,64,(7,7),strides=(2,2),padding='same')  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  
x = Conv2d_BN(x,192,(3,3),strides=(1,1),padding='same')  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  
x = Inception(x,64)#256  
x = Inception(x,120)#480  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  
x = Inception(x,128)#512  
x = Inception(x,128)  
x = Inception(x,128)  
x = Inception(x,132)#528  
x = Inception(x,208)#832  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  
x = Inception(x,208)  
x = Inception(x,256)#1024  
x = AveragePooling2D(pool_size=(7,7),strides=(7,7),padding='same')(x)  
x = Dropout(0.4)(x)  
x = Dense(1000,activation='relu')(x)  
x = Dense(1000,activation='softmax')(x)  
model = Model(inpt,x,name='inception')  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary()  

Resnet-34

#coding=utf-8  
from keras.models import Model  
from keras.layers import Input,Dense,Dropout,BatchNormalization,Conv2D,MaxPooling2D,AveragePooling2D,concatenate,Activation,ZeroPadding2D  
from keras.layers import add,Flatten  
#from keras.layers.convolutional import Conv2D,MaxPooling2D,AveragePooling2D  
import numpy as np  
seed = 7  
np.random.seed(seed)  

def Conv2d_BN(x, nb_filter,kernel_size, strides=(1,1), padding='same',name=None):  
    if name is not None:  
        bn_name = name + '_bn'  
        conv_name = name + '_conv'  
    else:  
        bn_name = None  
        conv_name = None  

    x = Conv2D(nb_filter,kernel_size,padding=padding,strides=strides,activation='relu',name=conv_name)(x)  
    x = BatchNormalization(axis=3,name=bn_name)(x)  
    return x  

def Conv_Block(inpt,nb_filter,kernel_size,strides=(1,1), with_conv_shortcut=False):  
    x = Conv2d_BN(inpt,nb_filter=nb_filter,kernel_size=kernel_size,strides=strides,padding='same')  
    x = Conv2d_BN(x, nb_filter=nb_filter, kernel_size=kernel_size,padding='same')  
    if with_conv_shortcut:  
        shortcut = Conv2d_BN(inpt,nb_filter=nb_filter,strides=strides,kernel_size=kernel_size)  
        x = add([x,shortcut])  
        return x  
    else:  
        x = add([x,inpt])  
        return x  

inpt = Input(shape=(224,224,3))  
x = ZeroPadding2D((3,3))(inpt)  
x = Conv2d_BN(x,nb_filter=64,kernel_size=(7,7),strides=(2,2),padding='valid')  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  
#(56,56,64)  
x = Conv_Block(x,nb_filter=64,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=64,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=64,kernel_size=(3,3))  
#(28,28,128)  
x = Conv_Block(x,nb_filter=128,kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=128,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=128,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=128,kernel_size=(3,3))  
#(14,14,256)  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=256,kernel_size=(3,3))  
#(7,7,512)  
x = Conv_Block(x,nb_filter=512,kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=512,kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=512,kernel_size=(3,3))  
x = AveragePooling2D(pool_size=(7,7))(x)  
x = Flatten()(x)  
x = Dense(1000,activation='softmax')(x)  

model = Model(inputs=inpt,outputs=x)  
model.compile(loss='categorical_crossentropy',optimizer='sgd',metrics=['accuracy'])  
model.summary() 

Resnet-50

#coding=utf-8  
from keras.models import Model  
from keras.layers import Input,Dense,BatchNormalization,Conv2D,MaxPooling2D,AveragePooling2D,ZeroPadding2D  
from keras.layers import add,Flatten  
#from keras.layers.convolutional import Conv2D,MaxPooling2D,AveragePooling2D  
from keras.optimizers import SGD  
import numpy as np  
seed = 7  
np.random.seed(seed)  

def Conv2d_BN(x, nb_filter,kernel_size, strides=(1,1), padding='same',name=None):  
    if name is not None:  
        bn_name = name + '_bn'  
        conv_name = name + '_conv'  
    else:  
        bn_name = None  
        conv_name = None  

    x = Conv2D(nb_filter,kernel_size,padding=padding,strides=strides,activation='relu',name=conv_name)(x)  
    x = BatchNormalization(axis=3,name=bn_name)(x)  
    return x  

def Conv_Block(inpt,nb_filter,kernel_size,strides=(1,1), with_conv_shortcut=False):  
    x = Conv2d_BN(inpt,nb_filter=nb_filter[0],kernel_size=(1,1),strides=strides,padding='same')  
    x = Conv2d_BN(x, nb_filter=nb_filter[1], kernel_size=(3,3), padding='same')  
    x = Conv2d_BN(x, nb_filter=nb_filter[2], kernel_size=(1,1), padding='same')  
    if with_conv_shortcut:  
        shortcut = Conv2d_BN(inpt,nb_filter=nb_filter[2],strides=strides,kernel_size=kernel_size)  
        x = add([x,shortcut])  
        return x  
    else:  
        x = add([x,inpt])  
        return x  

inpt = Input(shape=(224,224,3))  
x = ZeroPadding2D((3,3))(inpt)  
x = Conv2d_BN(x,nb_filter=64,kernel_size=(7,7),strides=(2,2),padding='valid')  
x = MaxPooling2D(pool_size=(3,3),strides=(2,2),padding='same')(x)  

x = Conv_Block(x,nb_filter=[64,64,256],kernel_size=(3,3),strides=(1,1),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=[64,64,256],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[64,64,256],kernel_size=(3,3))  

x = Conv_Block(x,nb_filter=[128,128,512],kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=[128,128,512],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[128,128,512],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[128,128,512],kernel_size=(3,3))  

x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[256,256,1024],kernel_size=(3,3))  

x = Conv_Block(x,nb_filter=[512,512,2048],kernel_size=(3,3),strides=(2,2),with_conv_shortcut=True)  
x = Conv_Block(x,nb_filter=[512,512,2048],kernel_size=(3,3))  
x = Conv_Block(x,nb_filter=[512,512,2048],kernel_size=(3,3))  
x = AveragePooling2D(pool_size=(7,7))(x)  
x = Flatten()(x)  
x = Dense(1000,activation='softmax')(x)  

model = Model(inputs=inpt,outputs=x)  
sgd = SGD(decay=0.0001,momentum=0.9)  
model.compile(loss='categorical_crossentropy',optimizer=sgd,metrics=['accuracy'])  
model.summary()  

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