Exudate detection in fundus images using deeply-learnable features.

Journal: Computers in biology and medicine
Published Date: Nov 3, 2018

Abstract

Presence of exudates on a retina is an early sign of diabetic retinopathy, and automatic detection of these can improve the diagnosis of the disease. Convolutional Neural Networks (CNNs) have been used for automatic exudate detection, but with poor performance. This study has investigated different deep learning techniques to maximize the sensitivity and specificity. We have compared multiple deep learning methods, and both supervised and unsupervised classifiers for improving the performance of automatic exudate detection, i.e., CNNs, pre-trained Residual Networks (ResNet-50) and Discriminative Restricted Boltzmann Machines. The experiments were conducted on two publicly available databases: (i) DIARETDB1 and (ii) e-Ophtha. The results show that ResNet-50 with Support Vector Machines outperformed other networks with an accuracy and sensitivity of 98% and 0.99, respectively. This shows that ResNet-50 can be used for the analysis of the fundus images to detect exudates.

Authors

  • Parham Khojasteh
    Royal Melbourne Institute of Technology, Biosignals Laboratory, School of Engineering, 124 La Trobe St, Melbourne, Australia. Electronic address: Parham.khojasteh@student.rmit.edu.au.
  • Leandro Aparecido Passos Júnior
    Federal University of São Carlos, Department of Computing, Rod. Washington Luís, Km 235, São Carlos, 13565-905, Brazil. Electronic address: leandropassosjr@gmail.com.
  • Tiago Carvalho
    Federal Institute of São Paulo, Department of Computing, Campinas, 13069-901, Brazil. Electronic address: tiagojc@ifsp.edu.br.
  • Edmar Rezende
    University of Campinas, Institute of Computing, Campinas, 13069-901, Brazil. Electronic address: edmar.rezende@gmail.com.
  • Behzad Aliahmad
    Royal Melbourne Institute of Technology, Biosignals Laboratory, School of Engineering, 124 La Trobe St, Melbourne, Australia. Electronic address: behzad.aliahmad@rmit.edu.au.
  • João Paulo Papa
    São Paulo State University - UNESP, Department of Computing, Av. Eng. Luiz Edmundo Carrijo Coube, 14-01, Bauru, 17033-360, Brazil. Electronic address: papa@fc.unesp.br.
  • Dinesh Kant Kumar

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