Spaces:
Runtime error
Runtime error
| batch_size = 32 | |
| img_height = 180 | |
| img_width = 180 | |
| train_ds = tf.keras.utils.image_dataset_from_directory( | |
| data_dir, | |
| validation_split=0.2, | |
| subset="training", | |
| seed=123, | |
| image_size=(img_height, img_width), | |
| batch_size=batch_size) | |
| val_ds = tf.keras.utils.image_dataset_from_directory( | |
| data_dir, | |
| validation_split=0.2, | |
| subset="validation", | |
| seed=123, | |
| image_size=(img_height, img_width), | |
| batch_size=batch_size) | |
| class_names = train_ds.class_names | |
| print(class_names) | |
| import matplotlib.pyplot as plt | |
| plt.figure(figsize=(10, 10)) | |
| for images, labels in train_ds.take(1): | |
| for i in range(9): | |
| ax = plt.subplot(3, 3, i + 1) | |
| plt.imshow(images[i].numpy().astype("uint8")) | |
| plt.title(class_names[labels[i]]) | |
| plt.axis("off") | |
| for image_batch, labels_batch in train_ds: | |
| print(image_batch.shape) | |
| print(labels_batch.shape) | |
| break | |
| AUTOTUNE = tf.data.AUTOTUNE | |
| train_ds = train_ds.cache().shuffle(1000).prefetch(buffer_size=AUTOTUNE) | |
| val_ds = val_ds.cache().prefetch(buffer_size=AUTOTUNE) | |
| normalization_layer = layers.Rescaling(1./255) | |
| normalized_ds = train_ds.map(lambda x, y: (normalization_layer(x), y)) | |
| image_batch, labels_batch = next(iter(normalized_ds)) | |
| first_image = image_batch[0] | |
| # Notice the pixel values are now in `[0,1]`. | |
| print(np.min(first_image), np.max(first_image)) | |
| data_augmentation = keras.Sequential( | |
| [ | |
| layers.RandomFlip("horizontal", | |
| input_shape=(img_height, | |
| img_width, | |
| 3)), | |
| layers.RandomRotation(0.1), | |
| layers.RandomZoom(0.1), | |
| ] | |
| ) | |
| plt.figure(figsize=(10, 10)) | |
| for images, _ in train_ds.take(1): | |
| for i in range(9): | |
| augmented_images = data_augmentation(images) | |
| ax = plt.subplot(3, 3, i + 1) | |
| plt.imshow(augmented_images[0].numpy().astype("uint8")) | |
| plt.axis("off") | |
| num_classes = len(class_names) | |
| model = Sequential([ | |
| data_augmentation, | |
| layers.Rescaling(1./255), | |
| layers.Conv2D(16, 3, padding='same', activation='relu'), | |
| layers.MaxPooling2D(), | |
| layers.Conv2D(32, 3, padding='same', activation='relu'), | |
| layers.MaxPooling2D(), | |
| layers.Conv2D(64, 3, padding='same', activation='relu'), | |
| layers.MaxPooling2D(), | |
| layers.Dropout(0.2), | |
| layers.Flatten(), | |
| layers.Dense(128, activation='relu'), | |
| layers.Dense(num_classes, name="outputs") | |
| ]) | |
| model.compile(optimizer='adam', | |
| loss=tf.keras.losses.SparseCategoricalCrossentropy(from_logits=True), | |
| metrics=['accuracy']) | |
| model.summary() | |
| epochs = 15 | |
| history = model.fit( | |
| train_ds, | |
| validation_data=val_ds, | |
| epochs=epochs | |
| ) | |
| import gradio as gr | |
| import numpy as np | |
| import tensorflow as tf | |
| def predict_image(img): | |
| img = np.array(img) | |
| img_resized = tf.image.resize(img, (180, 180)) | |
| img_4d = tf.expand_dims(img_resized, axis=0) | |
| prediction = model.predict(img_4d)[0] | |
| return {class_names[i]: float(prediction[i]) for i in range(len(class_names))} | |
| image = gr.Image() | |
| label = gr.Label(num_top_classes=12) | |
| # Define custom CSS for background image | |
| custom_css = """ | |
| body { | |
| background-image: url('\extracted_files\Pest_Dataset\bees\bees (444).jpg'); | |
| background-size: cover; | |
| background-repeat: no-repeat; | |
| background-attachment: fixed; | |
| color: white; | |
| } | |
| """ | |
| gr.Interface( | |
| fn=predict_image, | |
| inputs=image, | |
| outputs=label, | |
| title="Welcome to Agricultural Pest Image Classification", | |
| description="The image data set used was obtaied from Kaggle and has a collection of 12 different types of agricultral pests: Ants, Bees, Beetles, Caterpillars, Earthworms, Earwigs, Grasshoppers, Moths, Slugs, Snails, Wasps, and Weevils", | |
| css=custom_css | |
| ).launch(debug=True) |