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README.md
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@@ -12,27 +12,27 @@ ResNet50 is a deep convolutional neural network with 50 layers, known for its "r
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It allows training of very deep networks by adding shortcut connections that skip one or more layers, making it highly effective for image classification tasks.
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Our goal is to accurately classify the source of the image with at least 85% accuracy and achieve at least 80% in the Recall test.
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*Installation instructions*
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The following libraries or packages are required: numpy, pandas, tensorflow, keras, matplotlib, sklearn, cv2.
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We prepare the data for the model by sorted the images into 2 types of folders which are divided equally(real art- labeled as 0, fake art- labeled as 1).
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Our ResNet50 model is based on 2,800 images that have been resized and normalized, the files formats is PNG, JPG.
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The images are divided into a training set that contains 90% from data and a testing set that contains the remaining 10%.
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*ResNet50 model architecture*
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The model is pre-trained on 'ImageNet' that contains a large dataset of more than millions images.
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It applies transfer learning, freezing initial layers of ResNet50, and training only the final layers.
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The final layer, which makes the predictions, is a binary classification layer that uses a sigmoid activation function.
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*Training Details*
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The model is trained using binary cross-entropy loss and the Adam optimizer.
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The model validates itself during training using 20% of the training data as validation, independent of the test data, to monitor performance and avoid overfitting.
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The model is trained for 5 epochs with a batch size of 32 and employs 4-fold cross-validation to ensure robust performance.
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During each fold, the model's weights are saved after training, allowing for the reuse of the best-performing weights.
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*Performance Evaluation*
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After training, the model is evaluated on the test set.
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The following metrics are used to measure performance:
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Precision, Recall, F1-Score: For evaluating the model’s classification ability on both real art and AI-generated art images.
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Confusion Matrix: Provides insights into classification performance. Displays true positives, false positives, true negatives, and false negatives.
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*To run the project*
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Place the images in the respective training and testing folders.
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Preprocess the images by resizing and normalizing them.
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Train the model using the provided code.
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Evaluate the model on the test set.
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*Visualization results*
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Confusion Matrix: To visualize the classification performance.
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Training and Validation Metrics: Plots for accuracy and loss over the epochs.
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It allows training of very deep networks by adding shortcut connections that skip one or more layers, making it highly effective for image classification tasks.
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Our goal is to accurately classify the source of the image with at least 85% accuracy and achieve at least 80% in the Recall test.
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***Installation instructions***
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The following libraries or packages are required: numpy, pandas, tensorflow, keras, matplotlib, sklearn, cv2.
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We prepare the data for the model by sorted the images into 2 types of folders which are divided equally(real art- labeled as 0, fake art- labeled as 1).
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Our ResNet50 model is based on 2,800 images that have been resized and normalized, the files formats is PNG, JPG.
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The images are divided into a training set that contains 90% from data and a testing set that contains the remaining 10%.
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***ResNet50 model architecture***
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The model is pre-trained on 'ImageNet' that contains a large dataset of more than millions images.
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It applies transfer learning, freezing initial layers of ResNet50, and training only the final layers.
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The final layer, which makes the predictions, is a binary classification layer that uses a sigmoid activation function.
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***Training Details***
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The model is trained using binary cross-entropy loss and the Adam optimizer.
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The model validates itself during training using 20% of the training data as validation, independent of the test data, to monitor performance and avoid overfitting.
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The model is trained for 5 epochs with a batch size of 32 and employs 4-fold cross-validation to ensure robust performance.
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During each fold, the model's weights are saved after training, allowing for the reuse of the best-performing weights.
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***Performance Evaluation***
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After training, the model is evaluated on the test set.
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The following metrics are used to measure performance:
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Precision, Recall, F1-Score: For evaluating the model’s classification ability on both real art and AI-generated art images.
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Confusion Matrix: Provides insights into classification performance. Displays true positives, false positives, true negatives, and false negatives.
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***To run the project***
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Place the images in the respective training and testing folders.
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Preprocess the images by resizing and normalizing them.
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Train the model using the provided code.
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Evaluate the model on the test set.
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***Visualization results***
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Confusion Matrix: To visualize the classification performance.
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Training and Validation Metrics: Plots for accuracy and loss over the epochs.
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***Results***
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Test accuracy = 0.784
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Test loss = 0.48
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Precision = 0.76
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Recall = 0.83
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F1 = 0.79
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*Confusion Matrix:*
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