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CS550-project: Automated Radiology Report Generation and Disease Classification for enhanced patient care

This is the repository containing our CS550 project. The team members are:

  • Aditya Sankhla (12140060)
  • Aditya Vinay Dubey (12140100)
  • Tushar Bansal (12141680)

Objective

The objective of this project is to create a portal which will take in the patients (client) X-Ray along with a list of symptoms the client is suffering from through a chat bot and output a detailed report which will highlight the possible diseases that the patient might have based on an indepth analysis of the X-Ray along with the patient symptoms.

Mid-Evaluation Progress

  • Performed in-depth EDA and visualisation of the dataset and trained several CNN models on this dataset.
  • Successfully trained a multimodal (14 classes) image classification model with high accuracy and recall.
  • Developed a prototype portal (GUI) using tkinter.
  • Implemented a simple hugging face NLP model to classify the diseases based on the user's text and the context provided.

Final Evaluation Progress

  • Developed a well-crafted data pipeline, ensuring effective preprocessing and augmentation to enhance model performance.
  • Rigorously validated models, with DenseNet emerging as the optimal choice, showcasing superior accuracy and AUC values.
  • Integrated RAG with the Langchain Package to process user-reported symptoms through the chatbot.
  • Leveraged a retrieval model, document database, context embeddings, and a generative model for coherent and contextually relevant responses.
  • Implemented a React-based frontend for a seamless user interface.
  • Utilized Flask to manage requests and TensorFlow, Pinecone, and Langchain for core support.
  • Incorporated practical tools such as Base64 for file handling, ReportLab, WeasyPrint, and Flask-CORS for a seamless diagnostic and reporting experience.

Overall Methodology:

  1. Robust Foundation for Medical Diagnostic Systems:

    • Established a robust foundation through effective data preprocessing, model training, and advanced techniques like RAG.
    • Combined efforts resulted in a comprehensive diagnostic solution, integrating image processing and language understanding.
  2. Performance Metrics:

    • Generated critical performance metrics (accuracy, AUC, precision, recall, F1-score, support) for all classes within the dataset, providing valuable insights into model effectiveness.

Results




TODO: Attach demo video here.

Our project represents a significant advancement in medical diagnostics, providing a user-friendly portal with intelligent diagnostic capabilities, thereby enhancing patient care through technology.

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