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Diabetic Retinopathy and Diabetic Macular Edema Detection Using Ensemble Based Convolutional Neural Networksopen access

Authors
Sundaram, SwaminathanSelvamani, MeganathanRaju, Sekar KidambiRamaswamy, SeethalakshmiIslam, SaifulCha, Jae-HyukAlmujally, Nouf AbdullahElaraby, Ahmed
Issue Date
Mar-2023
Publisher
MDPI
Keywords
diabetic retinopathy; ensemble convolutional neural network; diabetic macular edema; Harris hawks optimization and artificial intelligence
Citation
DIAGNOSTICS, v.13, no.5, pp.1 - 25
Indexed
SCIE
SCOPUS
Journal Title
DIAGNOSTICS
Volume
13
Number
5
Start Page
1
End Page
25
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/184886
DOI
10.3390/diagnostics13051001
Abstract
Diabetic retinopathy (DR) and diabetic macular edema (DME) are forms of eye illness caused by diabetes that affects the blood vessels in the eyes, with the ground occupied by lesions of varied extent determining the disease burden. This is among the most common cause of visual impairment in the working population. Various factors have been discovered to play an important role in a person's growth of this condition. Among the essential elements at the top of the list are anxiety and long-term diabetes. If not detected early, this illness might result in permanent eyesight loss. The damage can be reduced or avoided if it is recognized ahead of time. Unfortunately, due to the time and arduous nature of the diagnosing process, it is harder to identify the prevalence of this condition. Skilled doctors manually review digital color images to look for damage produced by vascular anomalies, the most common complication of diabetic retinopathy. Even though this procedure is reasonably accurate, it is quite pricey. The delays highlight the necessity for diagnosis to be automated, which will have a considerable positive significant impact on the health sector. The use of AI in diagnosing the disease has yielded promising and dependable findings in recent years, which is the impetus for this publication. This article used ensemble convolutional neural network (ECNN) to diagnose DR and DME automatically, with accurate results of 99 percent. This result was achieved using preprocessing, blood vessel segmentation, feature extraction, and classification. For contrast enhancement, the Harris hawks optimization (HHO) technique is presented. Finally, the experiments were conducted for two kinds of datasets: IDRiR and Messidor for accuracy, precision, recall, F-score, computational time, and error rate.
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