Data diversity in convolutional neural network based ensemble model for diabetic retinopathy
Data diversity in convolutional neural network based ensemble model for diabetic retinopathy
The medical and healthcare domains require automatic diagnosis systems (ADS) for the identification of health problems with technological advancements. Biomedical imaging is one of the techniques used in computer-aided diagnosis systems. Ophthalmologists examine fundus images (FI) to detect and classify stages of diabetic retinopathy (DR). DR is a chronic disease that appears in patients with long-term diabetes. Unattained patients can lead to severe conditions of DR, such as retinal eye detachments. Therefore, early detection and classification of DR are crucial to ward off advanced stages of DR and preserve the vision. Data diversity in an ensemble model refers to the use of multiple models trained on different subsets of data to improve the ensemble’s overall performance. In the context of an ensemble model based on a convolutional neural network (CNN) for diabetic retinopathy, this could involve training multiple CNNs on various subsets of retinal images, including images from different patients or those captured using distinct imaging techniques. By combining the predictions of these multiple models, the ensemble model can potentially make more accurate predictions than a single prediction. In this paper, an ensemble model (EM) of three CNN models is proposed for limited and imbalanced DR data using data diversity. Detecting the Class 1 stage of DR is important to control this fatal disease in time. CNN-based EM is incorporated to classify the five classes of DR while giving attention to the early stage, i.e., Class 1. Furthermore, data diversity is created by applying various augmentation and generation techniques with affine transformation. Compared to the single model and other existing work, the proposed EM has achieved better multi-class classification accuracy, precision, sensitivity, and specificity of 91.06%, 91.00%, 95.01%, and 98.38%, respectively.
diabetic retinopathy, ensemble models, machine learning, deep learning, convolution neural network
., Inamullah
2c299626-b972-46d0-8c15-49c240fb5395
Hassan, Saima
7fc88202-18ca-4bff-8880-1ade00687db1
Alrajeh, Nabil A.
3b7e035b-74af-4332-b5b0-a10a33d5494e
Mohammed, Emad A.
6351cfff-21f8-4611-88e2-e3df444e6e83
Khan, Shafiullah
716a7f36-08f9-41b0-adec-664d5143f70d
30 April 2023
., Inamullah
2c299626-b972-46d0-8c15-49c240fb5395
Hassan, Saima
7fc88202-18ca-4bff-8880-1ade00687db1
Alrajeh, Nabil A.
3b7e035b-74af-4332-b5b0-a10a33d5494e
Mohammed, Emad A.
6351cfff-21f8-4611-88e2-e3df444e6e83
Khan, Shafiullah
716a7f36-08f9-41b0-adec-664d5143f70d
., Inamullah, Hassan, Saima, Alrajeh, Nabil A., Mohammed, Emad A. and Khan, Shafiullah
(2023)
Data diversity in convolutional neural network based ensemble model for diabetic retinopathy.
Biomimetics, 8 (2), [187].
(doi:10.3390/biomimetics8020187).
Abstract
The medical and healthcare domains require automatic diagnosis systems (ADS) for the identification of health problems with technological advancements. Biomedical imaging is one of the techniques used in computer-aided diagnosis systems. Ophthalmologists examine fundus images (FI) to detect and classify stages of diabetic retinopathy (DR). DR is a chronic disease that appears in patients with long-term diabetes. Unattained patients can lead to severe conditions of DR, such as retinal eye detachments. Therefore, early detection and classification of DR are crucial to ward off advanced stages of DR and preserve the vision. Data diversity in an ensemble model refers to the use of multiple models trained on different subsets of data to improve the ensemble’s overall performance. In the context of an ensemble model based on a convolutional neural network (CNN) for diabetic retinopathy, this could involve training multiple CNNs on various subsets of retinal images, including images from different patients or those captured using distinct imaging techniques. By combining the predictions of these multiple models, the ensemble model can potentially make more accurate predictions than a single prediction. In this paper, an ensemble model (EM) of three CNN models is proposed for limited and imbalanced DR data using data diversity. Detecting the Class 1 stage of DR is important to control this fatal disease in time. CNN-based EM is incorporated to classify the five classes of DR while giving attention to the early stage, i.e., Class 1. Furthermore, data diversity is created by applying various augmentation and generation techniques with affine transformation. Compared to the single model and other existing work, the proposed EM has achieved better multi-class classification accuracy, precision, sensitivity, and specificity of 91.06%, 91.00%, 95.01%, and 98.38%, respectively.
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biomimetics-08-00187-v2
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Accepted/In Press date: 29 April 2023
Published date: 30 April 2023
Keywords:
diabetic retinopathy, ensemble models, machine learning, deep learning, convolution neural network
Identifiers
Local EPrints ID: 496992
URI: http://eprints.soton.ac.uk/id/eprint/496992
ISSN: 2313-7673
PURE UUID: 046badaf-c116-4ddd-8eb3-b804782ac940
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Date deposited: 09 Jan 2025 17:43
Last modified: 22 Aug 2025 02:40
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Contributors
Author:
Inamullah .
Author:
Saima Hassan
Author:
Nabil A. Alrajeh
Author:
Emad A. Mohammed
Author:
Shafiullah Khan
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