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1. Modeling-Tumor-Escape-Mechanisms-for-DC-Based-Immunotherapy-Insights-into-the-Role-of-Hypoxia-and-A Modeling-Tumor-Escape-Mechanisms-for-DC-Based-Immunotherapy-Insights-into-the-Role-of-Hypoxia-and-A Public

   Modeling Tumor Escape Mechanisms for DC-Based Immunotherapy

   MATLAB 1

2. Claru-Activation Claru-Activation Public

   implementation of Claru activation function

   Jupyter Notebook

3. convnext-small-metadata-fusion-ham10000 convnext-small-metadata-fusion-ham10000 Public

   Multi-modal skin lesion classification on the HAM10000 dataset using ConvNeXt-Small for image analysis and clinical metadata fusion (age, sex, localization). Includes training pipeline, class imbal…

   Jupyter Notebook

4. doz-with-tkinter doz-with-tkinter Public

   A simple Tic Tac Toe (Doz) game with a graphical interface built using Python and Tkinter. Runs in a separate thread to keep the main program responsive.

   Jupyter Notebook

5. EfficientNetB1-Multi-Modal-HAM10000 EfficientNetB1-Multi-Modal-HAM10000 Public

   A multi-modal deep learning pipeline for skin lesion classification on HAM10000 that fuses dermoscopic images and clinical metadata using an ImageNet-pretrained EfficientNetB1 backbone, addressing …

   Jupyter Notebook

6. HAM10000_EffNetB1_ConvNeXt_Ensemble HAM10000_EffNetB1_ConvNeXt_Ensemble Public

   Multi-modal ensemble model for skin lesion classification on HAM10000 using EfficientNetB1 and ConvNeXt-Tiny backbones, integrating dermoscopic images with clinical metadata

   Jupyter Notebook