Vessel segmentation and width estimation in retinal images using multiscale production of matched filter responses

► A fast retinal vessel segmentation method using multiscale production. ► Optimized methods for scale selection and scale normalization in multiscale extraction of retinal vessels. ► Precise estimation of the retinal vessel widths. Automated segmentation of blood vessels in retinal images can help...

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Bibliographic Details
Published in:Expert systems with applications 2012-07, Vol.39 (9), p.7600-7610
Main Authors: Li, Qin, You, Jane, Zhang, David
Format: Article
Language:English
Subjects:
Abnormalities
Automated
Expert systems
Extraction
Fusion strategy
Matched filter
Matched filters
Multiscale production
Noise
Retinal image
Retinal images
Scale normalization
Scale selection
Segmentation
Vessel segmentation
Width estimation
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Summary:► A fast retinal vessel segmentation method using multiscale production. ► Optimized methods for scale selection and scale normalization in multiscale extraction of retinal vessels. ► Precise estimation of the retinal vessel widths. Automated segmentation of blood vessels in retinal images can help ophthalmologists screen larger populations for vessel abnormalities. However, automated vessel extraction is difficult due to the fact that the width of retinal vessels can vary from very large to very small, and that the local contrast of vessels is unstable. Further, the small vessels are overwhelmed by Gaussian-like noises. Therefore the accurate segmentation and width estimation of small vessels are very challenging. In this paper, we propose a simple and efficient multiscale vessel extraction scheme by multiplying the responses of matched filters at three scales. Since the vessel structures will have relatively strong responses to the matched filters at different scales but the background noises will not, scale production could further enhance vessels while suppressing noise. After appropriate selection of scale parameters and appropriate normalization of filter responses, the filter responses are then extracted and fused in the scale production domain. The experimental results demonstrate that the proposed method works well for accurately segmenting vessels with good width estimation.
ISSN:0957-4174
1873-6793
DOI:10.1016/j.eswa.2011.12.046