VisionDeep-AI: Deep learning-based retinal blood vessels segmentation and multi-class classification framework for eye diagnosis

Eye problems can lead to vision loss and have a significant impact on daily life, underscoring the critical importance of early diagnosis and treatment to prevent further damage and complications. A comprehensive segmentation -classification framework - VisionDeep-AI is developed in the proposed work for retinal vessel segmentation and multi -class classification on given fundus images. A weighted bi-directional feature pyramid network and U -Net backbone architecture -based customized deep -learning model is built to segment blood vessels which enhances feature extraction and multi -scale feature fusion. The architectural design comprises an end -to -end encoder -decoder network featuring six -depth layers with varying resolutions, enabling the extraction of high-level descriptors and lower -level, fine-grained characteristics. Furthermore, a multi -modal deep feature fusion architecture is developed for the multi -class classification of fundus images in four different categories by integrating features from segmented vessel images and raw fundus images, thereby accommodating more diversified information. A thorough analysis of VisionDeep-AI has been done on a comprehensive colour fundus image dataset. To ensure reliable results, data augmentation was done to prevent the over -fitting of the model and to enhance its generalization capability. The segmentation model performed exceptionally well and achieved a high accuracy of 97.73% and a dice coefficient of 89.90% in blood vessel segmentation from fundus images. Furthermore, multi -modal deep feature -fused classification architecture achieved a test accuracy of 81.50%, with a specificity of 93.83%. These findings showcase the robustness, generalizability and efficiency of the proposed VisionDeep-AI framework for fundus image segmentation and retinal disease classification, contributing towards advanced medical technologies and diagnosis precision.