Abstract
Ideally, to carry out screening for eye diseases, it is expected to use specialized medical equipment to capture retinal fundus images. However, since this kind of equipment is generally expensive and has low portability, and with the development of technology and the emergence of smartphones, new portable and cheaper screening options have emerged, one of them being the D-Eye device. When compared to specialized equipment, this equipment and other similar devices associated with a smartphone present lower quality and less field-of-view in the retinal video captured, yet with sufficient quality to perform a medical pre-screening. Individuals can be referred for specialized screening to obtain a medical diagnosis if necessary. Two methods were proposed to extract the relevant regions from these lower-quality videos (the retinal zone). The first one is based on classical image processing approaches such as thresholds and Hough Circle transform. The other performs the extraction of the retinal location by applying a neural network, which is one of the methods reported in the literature with good performance for object detection, the YOLO v4, which was demonstrated to be the preferred method to apply. A mosaicing technique was implemented from the relevant retina regions to obtain a more informative single image with a higher field of view. It was divided into two stages: the GLAMpoints neural network was applied to extract relevant points in the first stage. Some homography transformations are carried out to have in the same referential the overlap of common regions of the images. In the second stage, a smoothing process was performed in the transition between images.
Highlights
There is the need for early action, which prevents, minimizes, or leads to the search for specialized screening and medical diagnosis
Based on visual analysis and the Intersection over Union (IoU) values, three ranges were defined for image classification: Successful class is defined for images with IoU greater than 0.8
The equipment to capture retinal fundus images are expensive, and due to its size, they possess a lack of portability
Summary
They progressively aggravate the patient’s clinical situation and are irreversible, leading to visual impairments or blindness. Fundus cameras are professional equipment used to capture the eye’s retina and diagnose eye-related diseases. Such professional equipment produces high-quality fundus images, and due to such quality, this equipment’s usage is widespread for medical use. From another perspective, the lack of means for healthcare or equipment in areas with limited economic resources leads to the increasing trend of severity in health-related problems in such populations. Some alternatives might be the D-Eye [1], Peek Retina [2]
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