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DEVAI / instances /42_Medical_Image_Classification_DenseNet121_ChestXray_DL.json

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	{
	"name": "42_Medical_Image_Classification_DenseNet121_ChestXray_DL",
	"query": "Create a medical image classification system using a pre-trained DenseNet-121 model and the Kaggle Chest X-ray dataset. Start by loading and preprocessing the dataset and performing data augmentation (including rotation, translation, and scaling) in `src/data_loader.py`. Apply the DenseNet-121 model for classification, recording the accuracy and saving it to `results/metrics/classification_accuracy.txt`. Fine-tune the model and save it as `models/saved_models/chest_xray_densenet_model.pth`. Use Grad-CAM to visualize the model's decision-making process and save these visualizations as `results/figures/grad_cam_visualizations.gif`. Finally, create a Markdown report that documents the model architecture, training process, data augmentation techniques, and analysis of the results, and save it as `results/medical_image_classification_report.md`. It would also be nice if the system was flexible such that the DenseNet-121 could be easily further fine-tuned by a human user.",
	"tags": [
	"Classification",
	"Computer Vision",
	"Medical Analysis",
	"Supervised Learning"
	],
	"requirements": [
	{
	"requirement_id": 0,
	"prerequisites": [],
	"criteria": "The \"Kaggle Chest X-ray\" dataset is used, with data loading and preprocessing implemented in `src/data_loader.py`.",
	"category": "Dataset or Environment",
	"satisfied": null
	},
	{
	"requirement_id": 1,
	"prerequisites": [
	0
	],
	"criteria": "Data augmentation is performed, including rotation, translation, and scaling of images in `src/data_loader.py`.",
	"category": "Data preprocessing and postprocessing",
	"satisfied": null
	},
	{
	"requirement_id": 2,
	"prerequisites": [
	1
	],
	"criteria": "The pre-trained \"DenseNet-121\" model is fine-tuned saved in `models/saved_models/`.",
	"category": "Machine Learning Method",
	"satisfied": null
	},
	{
	"requirement_id": 3,
	"prerequisites": [
	1,
	2
	],
	"criteria": "Classification accuracy is printed and saved as `results/metrics/classification_accuracy.txt`.",
	"category": "Performance Metrics",
	"satisfied": null
	},
	{
	"requirement_id": 4,
	"prerequisites": [
	2,
	3
	],
	"criteria": "\"Grad-CAM\" is used to visualize model decisions, saving the visualizations as `results/figures/grad_cam_visualizations.gif`.",
	"category": "Visualization",
	"satisfied": null
	},
	{
	"requirement_id": 5,
	"prerequisites": [
	2,
	3
	],
	"criteria": "A \"Markdown\" report is created containing the model architecture, training process, data augmentation, and result analysis, and saved as `results/medical_image_classification_report.md`.",
	"category": "Other",
	"satisfied": null
	}
	],
	"preferences": [
	{
	"preference_id": 0,
	"criteria": "The \"Markdown\" report should include a section explaining the impact of data augmentation on model performance.",
	"satisfied": null
	},
	{
	"preference_id": 1,
	"criteria": "The \"Grad-CAM\" visualizations should clearly highlight the areas of the images that contributed most to the model's decisions.",
	"satisfied": null
	},
	{
	"preference_id": 2,
	"criteria": "The system should be flexible to allow further fine-tuning of the \"DenseNet-121\" model.",
	"satisfied": null
	}
	],
	"is_kaggle_api_needed": true,
	"is_training_needed": true,
	"is_web_navigation_needed": false
	}