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| import tensorflow as tf | |
| from tensorflow.keras.preprocessing.image import ImageDataGenerator | |
| from tensorflow.keras.applications import VGG16 | |
| from tensorflow.keras.layers import Flatten, Dense | |
| # Define data paths (modify as needed) | |
| train_data_dir = 'tt' | |
| validation_data_dir = 'valid' | |
| test_data_dir = 'valid' | |
| # Set image dimensions (adjust if necessary) | |
| img_width, img_height = 224, 224 # VGG16 expects these dimensions | |
| # Data augmentation for improved generalization (optional) | |
| train_datagen = ImageDataGenerator( | |
| rescale=1./255, # Normalize pixel values | |
| shear_range=0.2, | |
| zoom_range=0.2, | |
| horizontal_flip=True, | |
| fill_mode='nearest' | |
| ) | |
| validation_datagen = ImageDataGenerator(rescale=1./255) # Only rescale for validation | |
| # Load training and validation data | |
| train_generator = train_datagen.flow_from_directory( | |
| train_data_dir, | |
| target_size=(img_width, img_height), | |
| batch_size=32, # Adjust batch size based on GPU memory | |
| class_mode='binary' # Two classes: cat or dog | |
| ) | |
| validation_generator = validation_datagen.flow_from_directory( | |
| validation_data_dir, | |
| target_size=(img_width, img_height), | |
| batch_size=32, | |
| class_mode='binary' | |
| ) | |
| # Load pre-trained VGG16 model (without the top layers) | |
| base_model = VGG16(weights='imagenet', include_top=False, input_shape=(img_width, img_height, 3)) | |
| # Freeze the base model layers (optional - experiment with unfreezing for fine-tuning) | |
| base_model.trainable = False | |
| # Add custom layers for classification on top of the pre-trained model | |
| x = base_model.output | |
| x = Flatten()(x) | |
| predictions = Dense(1, activation='sigmoid')(x) # Sigmoid for binary classification | |
| # Create the final model | |
| model = tf.keras.Model(inputs=base_model.input, outputs=predictions) | |
| # Compile the model | |
| model.compile(loss='binary_crossentropy', | |
| optimizer='adam', | |
| metrics=['accuracy']) | |
| # Train the model | |
| history = model.fit( | |
| train_generator, | |
| epochs=3, # Adjust number of epochs based on dataset size and validation performance | |
| validation_data=validation_generator | |
| ) | |
| # Evaluate the model on test data (optional) | |
| test_generator = validation_datagen.flow_from_directory( | |
| test_data_dir, | |
| target_size=(img_width, img_height), | |
| batch_size=32, | |
| class_mode='binary' | |
| ) | |
| test_loss, test_acc = model.evaluate(test_generator) | |
| print('Test accuracy:', test_acc) | |
| # Save the model for future use (optional) | |
| model.save('cat_dog_classifier2.keras') | |