Genetic Algorithm Based Hybrid Clustering Technique for the Retinal Blood Vessels Segmentation

2022 4th International Conference on Advancements in Computing (ICAC) Pub Date : 2022-12-09 DOI:10.1109/ICAC57685.2022.10025224

Dulshani Dasanayake, Nirmani Athuraliya, Hashini De Silva, K.A.U Fernando, P. Haddela, Adeepa Gunarathne

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Abstract

Important details about the visual anomaly can be found in the retinal fundus imaging. The segmentation of the blood vessels is crucial and necessary for diagnosing different ocular fundus. The primary and most common causes of blindness are diabetic retinopathy and its effects on the retinal vascular structures. The study suggested a genetic algorithm combined with the K-means clustering technique for unsupervised retinal segmentation. An essential pre-processing step for vessel identification applications is vessel enhancement. The CLAHE filtering method is employed in this work as a preprocessing step for vessel improvement. The improved vessels were grouped together using a genetic approach, and K-means clustering was applied for superior clustering outcomes. DRIVE and IOSTAR databases that are accessible to the public are used to evaluate the suggested strategy. According to the experimental findings, the proposed algorithm successfully separates clusters that are more dense and well-separated than those of other previous findings. Both the Calinski-Harabasz I ndex S core and the Silhouette Index Score are used to validate the proposed algorithm.

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基于遗传算法的视网膜血管分割混合聚类技术

在视网膜眼底成像中可以发现视觉异常的重要细节。血管分割是诊断不同眼底病变的关键和必要条件。失明的主要和最常见的原因是糖尿病视网膜病变及其对视网膜血管结构的影响。提出了一种结合k均值聚类技术的遗传算法进行无监督视网膜分割。船舶识别应用的一个基本预处理步骤是船舶增强。本文采用CLAHE滤波方法作为改进容器的预处理步骤。改良后的血管使用遗传方法分组，k -均值聚类应用于优异的聚类结果。对公众开放的DRIVE和IOSTAR数据库被用来评估建议的战略。实验结果表明，该算法分离出的聚类比其他方法分离出的聚类密度更大、分离性更好。使用Calinski-Harabasz I指数S核心和Silhouette指数得分来验证所提出的算法。

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2022 4th International Conference on Advancements in Computing (ICAC)

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