Detecting the optic cup excavation in retinal fundus images by automatic detection of vessel kinking

Damon W. K. Wong; Jiang Liu; Ngan-Meng Tan; Fengshou Yin; Beng-Hai Lee; Yih Chung Tham; Carol Cheung; Tien Yin Wong

2012 21st International Conference on Pattern Recognition (ICPR 2012)

Detecting the optic cup excavation in retinal fundus images by automatic detection of vessel kinking

Year: 2012, Pages: 73-76

Authors

Damon W. K. Wong, Institute for Infocomm Research, A∗STAR
Jiang Liu, Institute for Infocomm Research, A∗STAR
Ngan-Meng Tan, Institute for Infocomm Research, A∗STAR
Fengshou Yin, Institute for Infocomm Research, A∗STAR
Beng-Hai Lee, Institute for Infocomm Research, A∗STAR
Yih Chung Tham, Singapore Eye Research Institute
Carol Cheung, Singapore Eye Research Institute
Tien Yin Wong, Singapore Eye Research Institute

Abstract

Identifying the boundary of the optic cup excavation is of critical importance in the assessment of glaucomatous risk. Currently, most approaches are focused on the use of pallor. We present an automatic method to determine the cup excavation boundary based on vessel kinking in non-stereo retinal fundus images. The method tracks vessels using a self-initialized evolving model which adapts during propagation. A piecewise analysis of the vessel trajectory is conducted to determine vessel kinking locations, from which the optic cup is obtained. Our proposed method is validated on a large database of 618 images. The results suggest that our proposed method is able to obtain a more accurate cup excavation detection than other tested methods.

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Detecting the optic cup excavation in retinal fundus images by automatic detection of vessel kinking

Authors

Abstract

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