问题
I have two different types of images (camera image and it's corresponding sketch). The goal of the network is to find the similarity between both images.
The network consists of a single encoder and a single decoder. The motivation behind the single encoder-decoder is to share the weights between them.
input_img = Input(shape=(img_width,img_height, channels))
def encoder(input_img):
# Photo-Encoder Code
pe = Conv2D(96, kernel_size=11, strides=(4,4), padding = 'SAME')(left_input) # (?, 64, 64, 96)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
pe = MaxPool2D((3, 3), strides=(2, 2), padding = 'VALID')(pe) # (?, 31, 31, 96)
pe = Conv2D(256, kernel_size=5, strides=(1,1), padding = 'SAME')(pe) # (?, 31, 31, 256)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
pe = MaxPool2D((3, 3), strides=(2, 2), padding = 'VALID')(pe) #(?, 15, 15, 256)
pe = Conv2D(384, kernel_size=3, strides=(1,1), padding = 'SAME')(pe) # (?, 15, 15, 384)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
pe = Conv2D(384, kernel_size=3, strides=(1,1), padding = 'SAME')(pe) # (?, 15, 15, 384)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
pe = Conv2D(256, kernel_size=3, strides=(1,1), padding = 'SAME')(pe) # (?, 15, 15, 256)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
encoded = MaxPool2D((3, 3), strides=(2, 2), padding = 'VALID')(pe) # (?, 7, 7, 256)
return encoded
def decoder(pe):
pe = Conv2D(1024, kernel_size=7, strides=(1, 1), padding = 'VALID')(pe)
pe = BatchNormalization()(pe)
pe = Activation('selu')(pe)
p_decoder_inp = Reshape((2,2,256))(pe)
pd = Conv2DTranspose(128, kernel_size=5, strides=(2, 2), padding='SAME')(p_decoder_inp)
pd = Activation("selu")(pd)
pd = Conv2DTranspose(64, kernel_size=5, strides=(2, 2), padding='SAME')(pd)
pd = Activation("selu")(pd)
pd = Conv2DTranspose(32, kernel_size=5, strides=(2, 2), padding='SAME')(pd)
pd = Activation("selu")(pd)
pd = Conv2DTranspose(16, kernel_size=5, strides=(2, 2), padding='SAME')(pd)
pd = Activation("selu")(pd)
pd = Conv2DTranspose(8, kernel_size=5, strides=(2, 2), padding='SAME')(pd)
pd = Activation("selu")(pd)
pd = Conv2DTranspose(4, kernel_size=5, strides=(2, 2), padding='SAME')(pd)
pd = Activation("selu")(pd)
decoded = Conv2DTranspose(3, kernel_size=5, strides=(2, 2), padding='SAME', activation='sigmoid')(pd) # (?, ?, ?, 3)
return decoded
siamsese_net = Model([camera_img, sketch_img], [decoder(encoder(camera_img)), decoder(encoder(sketch_img))])
siamsese_net.summary()
When I visualize the network, it show two-different networks.
But what I want is a network which takes two inputs, for example, a camera image and a sketch image and returns same images by using a single encoder-decoder.
Where I am doing wrong?
回答1:
Your "functions" are not "models", they are "creators".
Update both your functions like:
def create_encoder(): #no arguments!!!
pe = Input(shape=(img_width,img_height, channels))
....
encoded = ...
encoder = Model(pe, encoded)
return encoder
def create_decoder():
pe = Input(shape=(7,7,256))
....
decoded = ....
decoder = Model(pe, decoded)
return decoder
Now create the models:
encoder = create_encoder()
decoder = create_decoder()
siamsese_net = Model([camera_img, sketch_img],
[decoder(encoder(camera_img)), decoder(encoder(sketch_img))])
#where camera_img and sketch_image are 'Input' objects.
来源:https://stackoverflow.com/questions/60264360/how-to-design-a-shared-weight-multi-input-output-auto-encoder-network