使用 TensorFlow 和 Keras 的深度卷積 GAN · 精通 TensorFlow 1.x

# 使用 TensorFlow 和 Keras 的深度卷積 GAN 您可以按照 Jupyter 筆記本中的代碼`ch-14b_DCGAN`。在 DCGAN 中，判別器和生成器都是使用深度卷積網絡實現的： 1. 在此示例中，我們決定將生成器實現為以下網絡： ```py Generator: _________________________________________________________________ Layer (type) Output Shape Param # ================================================================= g_in (Dense) (None, 3200) 822400 _________________________________________________________________ g_in_act (Activation) (None, 3200) 0 _________________________________________________________________ g_in_reshape (Reshape) (None, 5, 5, 128) 0 _________________________________________________________________ g_0_up2d (UpSampling2D) (None, 10, 10, 128) 0 _________________________________________________________________ g_0_conv2d (Conv2D) (None, 10, 10, 64) 204864 _________________________________________________________________ g_0_act (Activation) (None, 10, 10, 64) 0 _________________________________________________________________ g_1_up2d (UpSampling2D) (None, 20, 20, 64) 0 _________________________________________________________________ g_1_conv2d (Conv2D) (None, 20, 20, 32) 51232 _________________________________________________________________ g_1_act (Activation) (None, 20, 20, 32) 0 _________________________________________________________________ g_2_up2d (UpSampling2D) (None, 40, 40, 32) 0 _________________________________________________________________ g_2_conv2d (Conv2D) (None, 40, 40, 16) 12816 _________________________________________________________________ g_2_act (Activation) (None, 40, 40, 16) 0 _________________________________________________________________ g_out_flatten (Flatten) (None, 25600) 0 _________________________________________________________________ g_out (Dense) (None, 784) 20071184 ================================================================= Total params: 21,162,496 Trainable params: 21,162,496 Non-trainable params: 0 ``` 1. 生成器是一個更強大的網絡，有三個卷積層，然后是 tanh 激活。我們將判別器網絡定義如下： ```py Discriminator: _________________________________________________________________ Layer (type) Output Shape Param # ================================================================= d_0_reshape (Reshape) (None, 28, 28, 1) 0 _________________________________________________________________ d_0_conv2d (Conv2D) (None, 28, 28, 64) 1664 _________________________________________________________________ d_0_act (Activation) (None, 28, 28, 64) 0 _________________________________________________________________ d_0_maxpool (MaxPooling2D) (None, 14, 14, 64) 0 _________________________________________________________________ d_out_flatten (Flatten) (None, 12544) 0 _________________________________________________________________ d_out (Dense) (None, 1) 12545 ================================================================= Total params: 14,209 Trainable params: 14,209 Non-trainable params: 0 _________________________________________________________________ ``` 1. GAN 網絡由判別器和生成器組成，如前所述： ```py GAN: _________________________________________________________________ Layer (type) Output Shape Param # ================================================================= z_in (InputLayer) (None, 256) 0 _________________________________________________________________ g (Sequential) (None, 784) 21162496 _________________________________________________________________ d (Sequential) (None, 1) 14209 ================================================================= Total params: 21,176,705 Trainable params: 21,162,496 Non-trainable params: 14,209 _________________________________________________________________ ``` 當我們運行這個模型 400 個周期時，我們得到以下輸出： ![](https://img.kancloud.cn/96/e5/96e534a5894da6ff594ab1d64d04b7be_791x675.png) 如您所見，DCGAN 能夠從 epoch 100 本身開始生成高質量的數字。 DGCAN 已被用于樣式轉移，圖像和標題的生成以及圖像代數，即拍攝一個圖像的一部分并將其添加到另一個圖像的部分。 MNIST DCGAN 的完整代碼在筆記本`ch-14b_DCGAN` 中提供。