Esempio n. 1
0
def discriminator(inp, reuse=False):
    with tf.variable_scope('Encoder', reuse=reuse):
        # 32
        inp = gaussnoise(inp, std=0.05)
        conv1 = conv2d(inp, 96, kernel=3, strides=1, name=dname + 'conv1')
        conv1 = lrelu(conv1, 0.2)

        conv1b = conv2d(conv1, 96, kernel=3, strides=2, name=dname + 'conv1b')
        conv1b = batchnorm(conv1b, is_training=is_train, name=dname + 'bn1b')
        conv1b = lrelu(conv1b, 0.2)
        conv1b = tf.nn.dropout(conv1b, keep_prob)
        # 16
        conv2 = conv2d(conv1b, 192, kernel=3, strides=1, name=dname + 'conv2')
        conv2 = batchnorm(conv2, is_training=is_train, name=dname + 'bn2')
        conv2 = lrelu(conv2, 0.2)

        conv2b = conv2d(conv2, 192, kernel=3, strides=2, name=dname + 'conv2b')
        conv2b = batchnorm(conv2b, is_training=is_train, name=dname + 'bn2b')
        conv2b = lrelu(conv2b, 0.2)
        conv2b = tf.nn.dropout(conv2b, keep_prob)
        # 8
        conv3 = conv2d(conv2b, 256, kernel=3, strides=1, name=dname + 'conv3')
        conv3 = batchnorm(conv3, is_training=is_train, name=dname + 'bn3')
        conv3 = lrelu(conv3, 0.2)

        conv3b = conv2d(conv3, 256, kernel=1, strides=1, name=dname + 'conv3b')
        conv3b = batchnorm(conv3b, is_training=is_train, name=dname + 'bn3b')
        conv3b = lrelu(conv3b, 0.2)

        conv4 = conv2d(conv3b, 512, kernel=1, strides=1, name=dname + 'conv4')
        conv4 = batchnorm(conv4, is_training=is_train, name=dname + 'bn4')
        conv4 = lrelu(conv4, 0.2)

        flat = flatten(conv4)
        # Classifier
        clspred = linear(flat, n_classes, name=dname + 'cpred')
        # Decoder
        g2 = conv2d(conv4, nout=256, kernel=3, name=dname + 'deconv2')
        g2 = batchnorm(g2, is_training=tf.constant(True), name=dname + 'bn2g')
        g2 = lrelu(g2, 0.2)

        g3 = nnupsampling(g2, [16, 16])
        g3 = conv2d(g3, nout=128, kernel=3, name=dname + 'deconv3')
        g3 = batchnorm(g3, is_training=tf.constant(True), name=dname + 'bn3g')
        g3 = lrelu(g3, 0.2)

        g3b = conv2d(g3, nout=128, kernel=3, name=dname + 'deconv3b')
        g3b = batchnorm(g3b,
                        is_training=tf.constant(True),
                        name=dname + 'bn3bg')
        g3b = lrelu(g3b, 0.2)

        g4 = nnupsampling(g3b, [32, 32])
        g4 = conv2d(g4, nout=64, kernel=3, name=dname + 'deconv4')
        g4 = batchnorm(g4, is_training=tf.constant(True), name=dname + 'bn4g')
        g4 = lrelu(g4, 0.2)

        g4b = conv2d(g4, nout=3, kernel=3, name=dname + 'deconv4b')
        g4b = tf.nn.tanh(g4b)
        return clspred, g4b
Esempio n. 2
0
def discriminator(inp, reuse=False):
    with tf.variable_scope('Encoder', reuse=reuse):
        # 64
        inp = gaussnoise(inp, std=0.05)
        conv1 = conv2d(inp, 128, kernel=3, strides=2, name=dname + 'conv1')
        conv1 = lrelu(conv1, 0.2)
        # 32
        conv2 = tf.nn.dropout(conv1, keep_prob)
        conv2 = conv2d(conv2, 256, kernel=3, strides=2, name=dname + 'conv2')
        conv2 = batchnorm(conv2, is_training=is_train, name=dname + 'bn2')
        conv2 = lrelu(conv2, 0.2)
        # 16
        conv3 = tf.nn.dropout(conv2, keep_prob)
        conv3 = conv2d(conv3, 512, kernel=3, strides=2, name=dname + 'conv3')
        conv3 = batchnorm(conv3, is_training=is_train, name=dname + 'bn3')
        conv3 = lrelu(conv3, 0.2)
        # 8
        conv3b = conv2d(conv3, 512, kernel=3, strides=1, name=dname + 'conv3b')
        conv3b = batchnorm(conv3b, is_training=is_train, name=dname + 'bn3b')
        conv3b = lrelu(conv3b, 0.2)

        conv4 = tf.nn.dropout(conv3b, keep_prob)
        conv4 = conv2d(conv4, 1024, kernel=3, strides=2, name=dname + 'conv4')
        conv4 = batchnorm(conv4, is_training=is_train, name=dname + 'bn4')
        conv4 = lrelu(conv4, 0.2)
        # 4

        flat = flatten(conv4)
        # Classifier
        clspred = linear(flat, n_classes, name=dname + 'cpred')
        # Decoder
        g1 = conv2d(conv4, nout=512, kernel=3, name=dname + 'deconv1')
        g1 = batchnorm(g1, is_training=tf.constant(True), name=dname + 'bn1g')
        g1 = lrelu(g1, 0.2)

        g2 = nnupsampling(g1, [8, 8])
        g2 = conv2d(g2, nout=256, kernel=3, name=dname + 'deconv2')
        g2 = batchnorm(g2, is_training=tf.constant(True), name=dname + 'bn2g')
        g2 = lrelu(g2, 0.2)

        g3 = nnupsampling(g2, [16, 16])
        g3 = conv2d(g3, nout=128, kernel=3, name=dname + 'deconv3')
        g3 = batchnorm(g3, is_training=tf.constant(True), name=dname + 'bn3g')
        g3 = lrelu(g3, 0.2)

        g4 = nnupsampling(g3, [32, 32])
        g4 = conv2d(g4, nout=64, kernel=3, name=dname + 'deconv4')
        g4 = batchnorm(g4, is_training=tf.constant(True), name=dname + 'bn4g')
        g4 = lrelu(g4, 0.2)

        g5 = nnupsampling(g4, [64, 64])
        g5 = conv2d(g5, nout=32, kernel=3, name=dname + 'deconv5')
        g5 = batchnorm(g5, is_training=tf.constant(True), name=dname + 'bn5g')
        g5 = lrelu(g5, 0.2)

        g5b = conv2d(g5, nout=3, kernel=3, name=dname + 'deconv5b')
        g5b = tf.nn.tanh(g5b)
        return clspred, g5b