Retinal Vessel Segmentation with Slime-Mould-Optimization based Multi-Scale-Matched-Filter
Even though a number of sensory organs are existing, eye plays a necessary role in the sensory system; which converts the incident light into meaningful visual information. If any abnormality arises in eye, then the whole sensory system gets stressed. The disease in eye is due to injury, infection a...
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| Published in | 2021 Seventh International conference on Bio Signals, Images, and Instrumentation (ICBSII) pp. 1 - 5 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
25.03.2021
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/ICBSII51839.2021.9445135 |
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| Abstract | Even though a number of sensory organs are existing, eye plays a necessary role in the sensory system; which converts the incident light into meaningful visual information. If any abnormality arises in eye, then the whole sensory system gets stressed. The disease in eye is due to injury, infection and ageing and the untreated eye disease will lead to vision loss. The proposed research aims to propose a Computer-Aided-Procedure (CAP) to extract the blood-vessel section from Digital-Fundus-Image (DFI). In order to accomplish this task, a Multi-Scale-Matched-Filter (MSMF) is designed using the Slime-Mould-Optimization algorithm. In this work, the necessary test images are collected from the benchmark DRIVE and CHASE_DB1 dataset. After extracting the blood-vessel using the MSMF, an examination among extracted vessel and the Ground-Truth (GT) image is executed and the Image-Performance-Values are separately computed for each database. The attained result with this CAP confirms that the attained Jaccard, Dice and Accuracy of proposed approach is better compared to similar existing approaches in the literature. |
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| AbstractList | Even though a number of sensory organs are existing, eye plays a necessary role in the sensory system; which converts the incident light into meaningful visual information. If any abnormality arises in eye, then the whole sensory system gets stressed. The disease in eye is due to injury, infection and ageing and the untreated eye disease will lead to vision loss. The proposed research aims to propose a Computer-Aided-Procedure (CAP) to extract the blood-vessel section from Digital-Fundus-Image (DFI). In order to accomplish this task, a Multi-Scale-Matched-Filter (MSMF) is designed using the Slime-Mould-Optimization algorithm. In this work, the necessary test images are collected from the benchmark DRIVE and CHASE_DB1 dataset. After extracting the blood-vessel using the MSMF, an examination among extracted vessel and the Ground-Truth (GT) image is executed and the Image-Performance-Values are separately computed for each database. The attained result with this CAP confirms that the attained Jaccard, Dice and Accuracy of proposed approach is better compared to similar existing approaches in the literature. |
| Author | Damasevicius, Robertas Taniar, David Kadry, Seifedine Rajinikanth, Venkatesan |
| Author_xml | – sequence: 1 givenname: Seifedine surname: Kadry fullname: Kadry, Seifedine email: skadry@gmail.com organization: Noroff University College,Faculty of Applied Computing and Technology,Kristiansand,Norway – sequence: 2 givenname: Venkatesan surname: Rajinikanth fullname: Rajinikanth, Venkatesan email: v.rajinikanth@ieee.org organization: St. Joseph's College of Engineering,Department of Electronics and Instrumentation Engineering,Chennai,India,600119 – sequence: 3 givenname: Robertas surname: Damasevicius fullname: Damasevicius, Robertas email: robertas.damasevicius@polsl.pl organization: Silesian University of Technology,Faculty of Applied Mathematics,Gliwice,Poland,44-100 – sequence: 4 givenname: David surname: Taniar fullname: Taniar, David email: David.Taniar@monash.edu organization: Monash University,Faculty of Information Technology,Clayton,Victoria,Australia,3800 |
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| Snippet | Even though a number of sensory organs are existing, eye plays a necessary role in the sensory system; which converts the incident light into meaningful visual... |
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| SubjectTerms | Blood-vessel Fundus image Image segmentation Instruments Morphology Multi-Scale-Matched-Filter Retinal vessels Slime-Mould-Optimization Task analysis Validation Visualization |
| Title | Retinal Vessel Segmentation with Slime-Mould-Optimization based Multi-Scale-Matched-Filter |
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