Oxford VGGFace Implementation using Keras Functional Framework v2+
- Models are converted from original caffe networks.
- It supports only Tensorflow backend.
- You can also load only feature extraction layers with VGGFace(include_top=False) initiation.
- When you use it for the first time , weights are downloaded and stored in ~/.keras/models/vggface folder.
pip install keras_vggface
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Models that mentioned in the new paper are added. SENET50 is not working for now.
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Label names are available now (Check the prediction code).
- Keras v2.1.1
- Tensorflow v1.4
- Warning: Theano backend is not supported/tested for now.
from keras_vggface.vggface import VGGFace
# Based on VGG16 architecture -> old paper(2015)
vggface = VGGFace(model='vgg16') # or VGGFace() as default
# Based on RESNET50 architecture -> new paper(2017)
vggface = VGGFace(model='resnet50')
# Based on SENET50 architecture -> new paper(2017)
vggface = VGGFace(model='senet50')
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Convolution Features
from keras.engine import Model from keras.layers import Input from keras_vggface.vggface import VGGFace # Convolution Features vgg_features = VGGFace(include_top=False, input_shape=(224, 224, 3), pooling='avg') # pooling: None, avg or max # After this point you can use your model to predict. # ...
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Specific Layer Features
from keras.engine import Model from keras.layers import Input from keras_vggface.vggface import VGGFace # Layer Features layer_name = 'layer_name' # edit this line vgg_model = VGGFace() # pooling: None, avg or max out = vgg_model.get_layer(layer_name).output vgg_model_new = Model(vgg_model.input, out) # After this point you can use your model to predict. # ...
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VGG16
from keras.engine import Model from keras.layers import Flatten, Dense, Input from keras_vggface.vggface import VGGFace #custom parameters nb_class = 2 hidden_dim = 512 vgg_model = VGGFace(include_top=False, input_shape=(224, 224, 3)) last_layer = vgg_model.get_layer('pool5').output x = Flatten(name='flatten')(last_layer) x = Dense(hidden_dim, activation='relu', name='fc6')(x) x = Dense(hidden_dim, activation='relu', name='fc7')(x) out = Dense(nb_class, activation='softmax', name='fc8')(x) custom_vgg_model = Model(vgg_model.input, out) # Train your model as usual. # ...
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RESNET50 or SENET50
from keras.engine import Model from keras.layers import Flatten, Dense, Input from keras_vggface.vggface import VGGFace #custom parameters nb_class = 2 vgg_model = VGGFace(include_top=False, input_shape=(224, 224, 3)) last_layer = vgg_model.get_layer('avg_pool').output x = Flatten(name='flatten')(last_layer) out = Dense(nb_class, activation='softmax', name='classifier')(x) custom_vgg_model = Model(vgg_model.input, out) # Train your model as usual. # ...
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Use
utils.preprocess_input(x, version=1)
for VGG16 -
Use
utils.preprocess_input(x, version=2)
for RESNET50 or SENET50import numpy as np from keras.preprocessing import image from keras_vggface.vggface import VGGFace from keras_vggface import utils # tensorflow model = VGGFace() # default : VGG16 , you can use model='resnet50' or 'senet50' # Change the image path with yours. img = image.load_img('../image/ajb.jpg', target_size=(224, 224)) x = image.img_to_array(img) x = np.expand_dims(x, axis=0) x = utils.preprocess_input(x, version=1) # or version=2 preds = model.predict(x) print('Predicted:', utils.decode_predictions(preds))
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Check Oxford Webpage for the license of the original models.
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The code that provided in this project is under MIT License.
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If you find this project useful, please include reference link in your work.
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You can create PR's to this document with your project/blog link.