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ACR-Loss

computer vision

facial landmark point

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ACR-Loss / cnn.py

daliprf

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ad1e0a0 almost 2 years ago

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	from config import DatasetName, DatasetType, W300Conf, InputDataSize, LearningConfig
	import tensorflow as tf
	from tensorflow import keras
	from skimage.transform import resize
	from keras.regularizers import l2, l1
	from keras.models import Model
	from keras.applications import mobilenet_v2, mobilenet, densenet
	from keras.layers import Dense, MaxPooling2D, Conv2D, Flatten, \
	BatchNormalization, Activation, GlobalAveragePooling2D, DepthwiseConv2D, Dropout, ReLU, Concatenate, Input, \
	GlobalMaxPool2D
	import efficientnet.tfkeras as efn


	class CNNModel:
	def get_model(self, arch, output_len):

	if arch == 'mobileNetV2':
	model = self.create_MobileNet(inp_shape=[224, 224, 3], output_len=output_len)

	elif arch == 'efNb0':
	model = self.create_efficientNet_b0(inp_shape=[224, 224, 3], input_tensor=None, output_len=output_len)

	elif arch == 'efNb3':
	model = self.create_efficientNet_b3(inp_shape=[224, 224, 3], input_tensor=None, output_len=output_len)

	return

	def create_MobileNet(self, inp_shape, output_len):
	mobilenet_model = mobilenet_v2.MobileNetV2(input_shape=inp_shape,
	alpha=1.0,
	include_top=True,
	weights=None,
	input_tensor=None,
	pooling=None)
	mobilenet_model.layers.pop()

	x = mobilenet_model.get_layer('global_average_pooling2d').output # 1280
	x = Dropout(0.1)(x)
	out_landmarks = Dense(output_len, activation=keras.activations.linear, kernel_initializer=initializer,
	use_bias=True, name='O_L')(x)
	inp = mobilenet_model.input

	revised_model = Model(inp, [out_landmarks])

	revised_model.summary()
	model_json = revised_model.to_json()

	with open("mobileNet_v2.json", "w") as json_file:
	json_file.write(model_json)

	return revised_model

	def create_efficientNet_b0(self, inp_shape, input_tensor, output_len):
	initializer = tf.keras.initializers.he_uniform()

	eff_net = efn.EfficientNetB0(include_top=True,
	weights=None,
	input_tensor=input_tensor,
	input_shape=inp_shape,
	pooling=None)
	eff_net.layers.pop()
	inp = eff_net.input

	x = eff_net.get_layer('top_activation').output
	x = GlobalAveragePooling2D()(x)
	x = keras.layers.Dropout(rate=0.5)(x)
	output = Dense(output_len, activation='linear', use_bias=True, name='out',
	kernel_initializer=initializer)(x)

	eff_net = Model(inp, output)
	eff_net.summary()

	model_json = eff_net.to_json()
	with open("eff_net_b0.json", "w") as json_file:
	json_file.write(model_json)

	return eff_net

	def create_efficientNet_b3(self, inp_shape, input_tensor, output_len):
	initializer = tf.keras.initializers.he_uniform()

	eff_net = efn.EfficientNetB3(include_top=True,
	weights=None,
	input_tensor=input_tensor,
	input_shape=inp_shape,
	pooling=None)
	eff_net.layers.pop()
	inp = eff_net.input

	x = eff_net.get_layer('top_activation').output
	x = GlobalAveragePooling2D()(x)
	x = keras.layers.Dropout(rate=0.5)(x)

	output = Dense(output_len, activation='linear', use_bias=True, name='out',
	kernel_initializer=initializer)(x)

	eff_net = Model(inp, output)
	eff_net.summary()

	model_json = eff_net.to_json()
	with open("eff_net_b3.json", "w") as json_file:
	json_file.write(model_json)

	return eff_net