[MedIA'25] FLAIR: A Foundation LAnguage-Image model of the Retina for fundus image understanding.
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Jun 20, 2025 - Python
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fundus-image-analysis
Here are 28 public repositories matching this topic...
[MICCAI'21] [Tensorflow] Retinal Vessel Segmentation using a Novel Multi-scale Generative Adversarial Network
tensorflow keras medical-imaging generative-adversarial-network gan generative-adversarial-networks vessel-segmentation miccai medical-image-analysis conditional-gan fundus medical-image-segmentation fundus-image-analysis retinal-vessel-segmentation retinal-diseases
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Jun 8, 2022 - Python
ODIR-2019: Ocular Disease Intelligent Recognition is a project leveraging state-of-the-art deep learning architectures to analyze and classify ocular diseases based on medical imaging data. This repository implements advanced machine learning techniques and modern neural network architectures to push the boundaries of intelligent recognition
python machine-learning deep-neural-networks computer-vision deep-learning tensorflow python3 image-classification convolutional-neural-networks keras-tensorflow medical-image-analysis fundus-image-analysis trasfer-learning
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Feb 9, 2025 - Jupyter Notebook
RET-CLIP: A Retinal Image Foundation Model Pre-trained with Clinical Diagnostic Reports
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Nov 25, 2024 - Python
Optic Disc and Optic Cup Segmentation using 57 layered deep convolutional neural network
ai deep-learning artificial-intelligence segmentation medical-image-analysis glaucoma-detection deep-convolutional-neural-networks fundus-image-analysis opticdisk-segmentation cdr-prediction
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Dec 12, 2018 - Jupyter Notebook
An adaptive threshold based algorithm for optic disc and cup segmentation in fundus images
python ai ipynb cdr medical-image-processing medical-image-analysis cup-segmentation-methods optic-disc glaucoma-detection adaptive-thresholding fundus-image-analysis optic-cup cdr-calculation optic-cup-disc-segmentation
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Apr 25, 2019 - Jupyter Notebook
EasyTorch is a research-oriented pytorch prototyping framework with a straightforward learning curve. It is highly robust and contains almost everything needed to perform any state-of-the-art experiments.
deep-learning pytorch convolutional-neural-networks transfer-learning roc-auc fundus-image-analysis deep-learning-for-computer-vision k-fold-cross-validation pytorch-for-medical-images getting-started-with-pytorch deep-learning-example pytorch-google-colab fast-pytorch-training
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Dec 6, 2023 - Python
Deep learning based retinal vessel segmentation for wide-field fundus photography retinal images, IEEE Trans. Medical Imaging, 2020
deep-learning multi-modal weakly-supervised-learning retinal-images fundus-image-analysis retinal-vessel-segmentation
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Nov 23, 2020 - Python
Classification of Fundus Images into 5 stages of Diabetic Retinopathy, and segmentation of blood vessels in fundus images
deep-learning medical-imaging diabetes diabetic-retinopathy-detection diabetic-retinopathy retinal-fundus-images fundus-image-analysis retinal-vessel-segmentation fundus-images retinal-vessels fundus-image-classification
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Sep 18, 2023 - Python
[TMI 2025] Cross- and Intra-image Prototypical Learning for Multi-label Disease Diagnosis and Interpretation
multi-label-learning disease-classification explainable-artificial-intelligence interpretable-deep-learning chestxray14 fundus-image-analysis
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Mar 28, 2025 - Python
Deep ConvNets based eye cancer detection
medical-imaging cancer-imaging-research glaucoma-detection fundus-image-analysis melanoma-detection eyec-cancer-detection deep-learning-in-healthcare
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Nov 10, 2021 - Jupyter Notebook
This research enhances early disease diagnosis by analyzing retinal blood vessels in fundus images using deep learning. It employs eight pre-trained CNN models and Explainable AI techniques.
deep-learning explainable-ai medical-image-segmentation fundus-image-analysis densenet121 cnn-models transunet resnet50v2 resnet101v2 swin-unet retinal-blood-vessels attention-u-net
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Feb 2, 2025 - Jupyter Notebook
Deep learning pipeline for classification of Cataract, Diabetic Retinopathy, Glaucoma and Normal using fundus images
machine-learning computer-vision jupyter-notebook cnn medical-imaging deep-learning-algorithms transfer-learning imageclassification diabetic-retinopathy glaucoma mobilenetv2 multiclass-image-classification fundus-image-analysis cataract fundus-image grad-cam-visualization fundus-images retinal-disease-detection fundus-image-classification
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Jul 4, 2025 - Jupyter Notebook
Auto Retinal Disease Detection (ARDD) is the winning webapp of the 2020 Congressional App Challenge for Virginia's 10th District.
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Apr 9, 2021 - Python
Information about training model and GradCam
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Jan 4, 2022 - Jupyter Notebook
Diabetic Retinopathy using Patch Networks.
deep-learning tensorflow python3 vessel-segmentation diabetic-retinopathy-detection diabetic-retinopathy exudates fundus-image-analysis microaneurysm-detection hemorrhage efficientdet fundus-images
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Oct 21, 2020 - Jupyter Notebook
Diabethic Retinopathy and Macular Degeration Detection with CNNs
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Jul 9, 2023 - PostScript
[ICCV'21] [Tensorflow] Semi-supervised Retinal Image Synthesis and Disease Prediction using Vision Transformers
generative-adversarial-network semi-supervised-learning diabetic-retinopathy-detection disease-prediction fundus-image-analysis fluorescein-angiography vision-transformer vision-transformers
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Nov 2, 2022 - Python
tools for analysis of fundus autofluorescence images in ABCA4-related Stargardt's diesease
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Jul 21, 2025 - Python
An AI-powered app that detects early-stage Diabetic Retinopathy from fundus images using deep learning models like Vision Transformer and UNet.
deep-learning medical-image-processing diabetic-retinopathy-detection fundus-image-analysis early-detection-of-disease
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May 2, 2025 - HTML
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