Segmentation of optic disc, fovea and retinal vasculature using a single convolutional neural network

Jen Hong Tan; U. Rajendra Acharya; Sulatha V. Bhandary; Kuang Chua Chua; Sobha Sivaprasad

doi:10.1016/j.jocs.2017.02.006

Segmentation of optic disc, fovea and retinal vasculature using a single convolutional neural network

Jen Hong Tan, U. Rajendra Acharya, Sulatha V. Bhandary, Kuang Chua Chua, Sobha Sivaprasad

Research output: Contribution to journal › Article › peer-review

184 Citations (Scopus)

Abstract

We have developed and trained a convolutional neural network to automatically and simultaneously segment optic disc, fovea and blood vessels. Fundus images were normalized before segmentation was performed to enforce consistency in background lighting and contrast. For every effective point in the fundus image, our algorithm extracted three channels of input from the point's neighbourhood and forwarded the response across the 7-layer network. The output layer consists of four neurons, representing background, optic disc, fovea and blood vessels. In average, our segmentation correctly classified 92.68% of the ground truths (on the testing set from Drive database). The highest accuracy achieved on a single image was 94.54%, the lowest 88.85%. A single convolutional neural network can be used not just to segment blood vessels, but also optic disc and fovea with good accuracy.

Original language	English
Pages (from-to)	70-79
Number of pages	10
Journal	Journal of Computational Science
Volume	20
DOIs	https://doi.org/10.1016/j.jocs.2017.02.006
Publication status	Published - 01-05-2017

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Computer Science(all)
Modelling and Simulation

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10.1016/j.jocs.2017.02.006

Cite this

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title = "Segmentation of optic disc, fovea and retinal vasculature using a single convolutional neural network",

abstract = "We have developed and trained a convolutional neural network to automatically and simultaneously segment optic disc, fovea and blood vessels. Fundus images were normalized before segmentation was performed to enforce consistency in background lighting and contrast. For every effective point in the fundus image, our algorithm extracted three channels of input from the point's neighbourhood and forwarded the response across the 7-layer network. The output layer consists of four neurons, representing background, optic disc, fovea and blood vessels. In average, our segmentation correctly classified 92.68% of the ground truths (on the testing set from Drive database). The highest accuracy achieved on a single image was 94.54%, the lowest 88.85%. A single convolutional neural network can be used not just to segment blood vessels, but also optic disc and fovea with good accuracy.",

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AU - Tan, Jen Hong

AU - Acharya, U. Rajendra

AU - Bhandary, Sulatha V.

AU - Chua, Kuang Chua

AU - Sivaprasad, Sobha

PY - 2017/5/1

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N2 - We have developed and trained a convolutional neural network to automatically and simultaneously segment optic disc, fovea and blood vessels. Fundus images were normalized before segmentation was performed to enforce consistency in background lighting and contrast. For every effective point in the fundus image, our algorithm extracted three channels of input from the point's neighbourhood and forwarded the response across the 7-layer network. The output layer consists of four neurons, representing background, optic disc, fovea and blood vessels. In average, our segmentation correctly classified 92.68% of the ground truths (on the testing set from Drive database). The highest accuracy achieved on a single image was 94.54%, the lowest 88.85%. A single convolutional neural network can be used not just to segment blood vessels, but also optic disc and fovea with good accuracy.

AB - We have developed and trained a convolutional neural network to automatically and simultaneously segment optic disc, fovea and blood vessels. Fundus images were normalized before segmentation was performed to enforce consistency in background lighting and contrast. For every effective point in the fundus image, our algorithm extracted three channels of input from the point's neighbourhood and forwarded the response across the 7-layer network. The output layer consists of four neurons, representing background, optic disc, fovea and blood vessels. In average, our segmentation correctly classified 92.68% of the ground truths (on the testing set from Drive database). The highest accuracy achieved on a single image was 94.54%, the lowest 88.85%. A single convolutional neural network can be used not just to segment blood vessels, but also optic disc and fovea with good accuracy.

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Segmentation of optic disc, fovea and retinal vasculature using a single convolutional neural network

Abstract

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