2021
DOI: 10.2147/opth.s289425
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Evaluating the Viability of a Smartphone-Based Annotation Tool for Faster and Accurate Image Labelling for Artificial Intelligence in Diabetic Retinopathy

Abstract: Introduction Deep Learning (DL) and Artificial Intelligence (AI) have become widespread due to the advanced technologies and availability of digital data. Supervised learning algorithms have shown human-level performance or even better and are better feature extractor-quantifier than unsupervised learning algorithms. To get huge dataset with good quality control, there is a need of an annotation tool with a customizable feature set. This paper evaluates the viability of having an in house annotati… Show more

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Cited by 8 publications
(6 citation statements)
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“…When combined with portable retinal imaging, artificial intelligence had diagnostic accuracy comparable to ophthalmologists. [72][73][74] Smartphone-based widefield fundus imaging has also been developed, 75 which may prove superior to other portable fundus imaging techniques, but comparative studies are needed to demonstrate its diagnostic performance and cost-effectiveness.…”
Section: Portable and Smartphone-based Retinal Imagingmentioning
confidence: 99%
See 1 more Smart Citation
“…When combined with portable retinal imaging, artificial intelligence had diagnostic accuracy comparable to ophthalmologists. [72][73][74] Smartphone-based widefield fundus imaging has also been developed, 75 which may prove superior to other portable fundus imaging techniques, but comparative studies are needed to demonstrate its diagnostic performance and cost-effectiveness.…”
Section: Portable and Smartphone-based Retinal Imagingmentioning
confidence: 99%
“…Artificial intelligence-based image analysis tools may also have a role, as resource-limited settings—where expert graders may be in short supply—are likely to benefit most from portable imaging. When combined with portable retinal imaging, artificial intelligence had diagnostic accuracy comparable to ophthalmologists 72–74 . Smartphone-based widefield fundus imaging has also been developed, 75 which may prove superior to other portable fundus imaging techniques, but comparative studies are needed to demonstrate its diagnostic performance and cost-effectiveness.…”
Section: Teleophthalmology Approaches To Diabetic Retinopathy Screeningmentioning
confidence: 99%
“…Morya et al [ 18 ] evaluated the first smartphone-based online annotation in the world, a tool for rapid and accurate image labeling, using AI-based DL for DR. This DL model evaluated its accuracy based on a binary referral DR classification system, depending on whether a retinal image had referral DR or not.…”
Section: Use Of Artificial Intelligence In Ophthalmologymentioning
confidence: 99%
“…If we could determine the most informative images and label only them, we might be able to train an intermediate AI model that would help us label the remaining images. We note in passing that while creating a (segmentation) label takes minutes, checking an already existing label for correctness only takes 10–20 s ( 9 11 ). If most of the labels proposed by this intermediate AI model are correct, the human workforce would be able to check these automatically-labeled images at a much faster rate than labeling them directly.…”
Section: Information and Active Learningmentioning
confidence: 99%
“…The drawing must be accurate and so this activity consumes time. Providing a single image with segmentation labeling can easily require 2-15 min in simple cases and longer for more complex cases, per image and per person (8)(9)(10)(11). To avoid human bias, each image is typically labeled by several human labelers with three labelers being a typical number (12,13).…”
Section: Introduction To Labelingmentioning
confidence: 99%