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DEVAI / instances /37_Lane_Detection_ResNet50_TuSimple_DL.json

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	{
	"name": "37_Lane_Detection_ResNet50_TuSimple_DL",
	"query": "Develop a lane detection system. Start by importing the standard pre-trained ResNet-50 model from PyTorch in `src/model.py`. We'll work here with the TuSimple lane detection dataset as our test dataset, which should be loaded through `src/data_loader.py`. Then load and preprocess the dataset, including data augmentation techniques such as random cropping, rotation, and scaling in `src/data_loader.py`. Fine-tune the model and save the detection accuracy in `results/metrics/detection_accuracy.txt`, and save the trained model as `models/saved_models/lane_detection_model.pth`. Split a subset of the data for validation, implemented in `src/data_loader.py`. Visualize detection results using matplotlib and save them to `results/figures/`. Create a detailed report of the entire process, including data preprocessing, model training, and evaluation, and save it as `results/lane_detection_report.pdf`. The report should also analyze the model's performance under challenging conditions such as curves or poor lighting.",
	"tags": [
	"Computer Vision"
	],
	"requirements": [
	{
	"requirement_id": 0,
	"prerequisites": [],
	"criteria": "The \"TuSimple\" lane detection dataset is loaded in `src/data_loader.py`.",
	"category": "Dataset or Environment",
	"satisfied": null
	},
	{
	"requirement_id": 1,
	"prerequisites": [
	0
	],
	"criteria": "Data augmentation, including random cropping, rotation, and scaling, is performed in `src/data_loader.py`.",
	"category": "Data preprocessing and postprocessing",
	"satisfied": null
	},
	{
	"requirement_id": 2,
	"prerequisites": [
	0
	],
	"criteria": "A subset of the data is split for validation and implemented in `src/data_loader.py`.",
	"category": "Data preprocessing and postprocessing",
	"satisfied": null
	},
	{
	"requirement_id": 3,
	"prerequisites": [],
	"criteria": "The pre-trained \"ResNet-50\" model is imported from PyTorch in `src/model.py`.",
	"category": "Machine Learning Method",
	"satisfied": null
	},
	{
	"requirement_id": 4,
	"prerequisites": [
	1,
	2,
	3
	],
	"criteria": "Fine tune the \"ResNet-50\" model and save it as `models/saved_models/lane_detection_model.pth`.",
	"category": "Save Trained Model",
	"satisfied": null
	},
	{
	"requirement_id": 5,
	"prerequisites": [
	4
	],
	"criteria": "Detection accuracy is saved as `results/metrics/detection_accuracy.txt`.",
	"category": "Performance Metrics",
	"satisfied": null
	},
	{
	"requirement_id": 6,
	"prerequisites": [
	4
	],
	"criteria": "Detection results are visualized with \"matplotlib\" and saved to `results/figures/`.",
	"category": "Visualization",
	"satisfied": null
	},
	{
	"requirement_id": 7,
	"prerequisites": [
	0,
	1,
	2,
	3,
	4,
	5
	],
	"criteria": "A detailed report containing data preprocessing, model training, and evaluation process is created and saved as `results/lane_detection_report.pdf`.",
	"category": "Other",
	"satisfied": null
	}
	],
	"preferences": [
	{
	"preference_id": 0,
	"criteria": "The report should include an analysis of the model's performance on challenging scenarios, such as curves or poor lighting conditions.",
	"satisfied": null
	},
	{
	"preference_id": 1,
	"criteria": "The data augmentation steps should be well-documented, with examples of augmented images included in the report.",
	"satisfied": null
	}
	],
	"is_kaggle_api_needed": false,
	"is_training_needed": true,
	"is_web_navigation_needed": false
	}