Imagenet VGG-19网络加载和特征可视化
作者:互联网
这篇文章主要阐述加载已经训练好的Imagenet VGG-19网络对图像猫进行识别,并且可视化VGG网络卷积层的特征图像。
下载Imagenet VGG-19
http://www.vlfeat.org/matconvnet/models/beta16/imagenet-vgg-verydeep-19.mat
加载Imagenet VGG-19
完整代码如下:
import scipy.io
import numpy as np
import os
import scipy.misc
import matplotlib.pyplot as plt
import tensorflow as tf
def _conv_layer(input, weights, bias):
conv = tf.nn.conv2d(input, tf.constant(weights), strides=(1,1,1,1), padding='SAME')
return tf.nn.bias_add(conv, bias)
def _pool_layer(input):
return tf.nn.max_pool(input, ksize=(1,2,2,1), strides=(1,2,2,1), padding='SAME')
def preprocess(image, mean_pixel):
return image - mean_pixel
def unprocess(image, mean_piexl):
return image + mean_piexl
def imread(path):
return scipy.misc.imread(path).astype(np.float)
def imsave(path, img):
img = np.clip(img, 0, 255).astype(np.int8)
scipy.misc.imsave(path, img)
print('functions for vgg ready')
def net(data_path, input_image):
layers = (
'conv1_1', 'relu1_1', 'conv1_2', 'relu1_2', 'pool1',
'conv2_1', 'relu2_1', 'conv2_2', 'relu2_2', 'pool2',
'conv3_1', 'relu3_1', 'conv3_2', 'relu3_2',
'conv3_3', 'relu3_3', 'conv3_4', 'relu3_4', 'pool3',
'conv4_1', 'relu4_1', 'conv4_2', 'relu4_2',
'conv4_3', 'relu4_3', 'conv4_4', 'relu4_4', 'pool4',
'conv5_1', 'relu5_1', 'conv5_2', 'relu5_2',
'conv5_3', 'relu5_3', 'conv5_4', 'relu5_4'
)
data = scipy.io.loadmat(data_path)
mean = data['normalization'][0][0][0]
mean_pixel = np.mean(mean, axis=(0,1))
weights = data['layers'][0]
net = {}
current = input_image
for i, name in enumerate(layers):
kind = name[:4]
if kind == 'conv':
kernels, bias = weights[i][0][0][0][0]
kernels = np.transpose(kernels, (1, 0, 2, 3))
bias = bias.reshape(-1)
current = _conv_layer(current, kernels, bias)
elif kind == 'relu':
current = tf.nn.relu(current)
elif kind == 'pool':
current = _pool_layer(current)
net[name] = current
assert len(net) == len(layers)
return net, mean_pixel, layers
print('network for vgg ready')
cwd = os.getcwd()
vgg_path = cwd + '/data/imagenet-vgg-verydeep-19.mat'
img_path = cwd + '/data/cat.jpeg'
input_image = imread(img_path)
shape = (1, input_image.shape[0], input_image.shape[1], input_image.shape[2])
with tf.Session() as sess:
image = tf.placeholder('float', shape=shape)
nets, mean_pixel, all_layers = net(vgg_path, image)
input_image_pre = np.array([preprocess(input_image, mean_pixel)])
layers = all_layers
for i, layer in enumerate(layers):
print('[%d/%d] %s' % (i+1, len(layers), layer))
features = nets[layer].eval(feed_dict={image: input_image_pre})
print('Type of ‘features’ is ', type(features))
print('Shape of ‘features’ is ', (features.shape,))
if 1:
plt.figure(i+1, figsize=(10, 5))
plt.matshow(features[0, :, :, 0], cmap=plt.cm.gray, fignum=i+1)
plt.title(''+layer)
plt.colorbar()
plt.show()
卷积层特征图像显示
vgg-19网络的输入图片如下
各卷积层的特征图像
标签:layers,19,image,VGG,current,path,Imagenet,input,mean 来源: https://blog.51cto.com/u_14013325/2903995