Bob Zhang scite author profile

Abstract:Accurate extraction of retinal blood vessels is an important task in computer aided diagnosis of retinopathy. The Matched Filter (MF) is a simple yet effective method for vessel extraction. However, a MF will respond not only to vessels but also to non-vessel edges. This will lead to frequent false vessel detection. In this paper we propose a novel extension of the MF approach, namely the MF-FDOG, to detect retinal blood vessels. The proposed MF-FDOG is composed of the original MF, which is a zero-mean Gaussian function, and the first-order derivative of Gaussian (FDOG). The vessels are detected by thresholding the retinal image's response to the MF, while the threshold is adjusted by the image's response to the FDOG. The proposed MF-FDOG method is very simple; however, it reduces significantly the false detections produced by the original MF and detects many fine vessels that are missed by the MF. It achieves competitive vessel detection results as compared with those state-of-the-art schemes but with much lower complexity. In addition, it performs well at extracting vessels from pathological retinal images.

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Deep learning on image denoising: An overview

Tian

Zhang

Zheng³

et al. 2020

Neural Networks

602

244

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Retinopathy Online Challenge: Automatic Detection of Microaneurysms in Digital Color Fundus Photographs

Niemeijer

Ginneken²,

Cree

et al. 2010

IEEE Trans. Med. Imaging

432

200

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Abstract-The detection of microaneurysms in digital color fundus photographs is a critical first step in automated screening for diabetic retinopathy (DR), a common complication of diabetes. To accomplish this detection numerous methods have been published in the past but none of these was compared with each other on the same data. In this work we present the results of the first international microaneurysm detection competition, organized in The overall results show that microaneurysm detection is a challenging task for both the automatic methods as well as the human expert. There is room for improvement as the best performing system does not reach the performance of the human expert. The data associated with the ROC microaneurysm detection competition will remain publicly available and the website will continue accepting submissions.

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Attention-guided CNN for image denoising

et al. 2020

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Feature Extraction Methods for Palmprint Recognition: A Survey and Evaluation

Zhang

Jia

et al. 2019

IEEE Trans. Syst. Man Cybern, Syst.

164

115

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Detection of microaneurysms using multi-scale correlation coefficients

Zhang

You

et al. 2010

Pattern Recognition

203

106

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Robust Sparse Linear Discriminant Analysis

Wen

Fang

Cui

et al. 2019

IEEE Trans. Circuits Syst. Video Technol.

281

103

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Local line directional pattern for palmprint recognition

Luo

Zhao

Zhang

et al. 2016

Pattern Recognition

193

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Bob Zhang

Retinal vessel extraction by matched filter with first-order derivative of Gaussian

Deep learning on image denoising: An overview

Retinopathy Online Challenge: Automatic Detection of Microaneurysms in Digital Color Fundus Photographs

Attention-guided CNN for image denoising

Feature Extraction Methods for Palmprint Recognition: A Survey and Evaluation

Detection of microaneurysms using multi-scale correlation coefficients

Robust Sparse Linear Discriminant Analysis

Local line directional pattern for palmprint recognition

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