Sustainable method of automatic detection of tumor using super pixel segmentation

INTERNATIONAL CONFERENCE ON ENERGY AND ENVIRONMENT (ICEE 2021) Pub Date : 2021-09-28 DOI:10.1063/5.0066639

Reshma Jose, S. Chacko, T. Jarin

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Abstract

Liver cancer is the leading cause of cancer-related death worldwide. Since the radiologist's ability to diagnose liver cancer at an early stage is zero, the prognosis is poor. According to numerous investigations performed so far, the nodule segmentation algorithms are clearly ineffective. As a result, for specific pulmonary nodule segmentation, this study made use of the advanced optimization tool and centralized super pixels segmentation based iterative clustering (SSBIC). To remove noise from the images, start by using ADF and unsharp masking enhancement techniques. In order to predict abnormal liver tissue, an enhanced nodule image sequence is subjected to the Super pixel Segmentation Based Iterative Clustering (SSBIC) algorithm. Finally, to photograph liver nodules, a deep learning-based Advanced GWO with CNN (AGWO-ONN) and an Advanced GWO with ONN (AGWO-ONN) are used (AGWO-CNN).For nodule slice order, the average segmentation time is 1.06s. The classification accuracy of the Advanced GWO with ONN (AGWO-ONN) method is 97 percent, while the classification accuracy of the Advanced GWO with CNN (AGWO-CNN) method is 97.6 percent.

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基于超像素分割的可持续肿瘤自动检测方法

肝癌是全球癌症相关死亡的主要原因。由于放射科医生在早期诊断肝癌的能力为零，预后很差。根据目前进行的大量研究，结节分割算法显然是无效的。因此，对于特定的肺结节分割，本研究使用了先进的优化工具和基于集中超像素分割的迭代聚类(SSBIC)。为了从图像中去除噪声，首先使用ADF和不锐利的掩蔽增强技术。为了预测异常肝脏组织，对增强的结节图像序列进行了基于超像素分割的迭代聚类算法(SSBIC)。最后，为了拍摄肝结节，使用了基于深度学习的高级GWO与CNN (AGWO-ONN)和高级GWO与ONN (AGWO-ONN) (AGWO-CNN)。对于结节切片顺序，平均分割时间为1.06s。使用ONN (AGWO-ONN)方法的高级GWO分类准确率为97%，而使用CNN (AGWO-CNN)方法的高级GWO分类准确率为97.6%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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INTERNATIONAL CONFERENCE ON ENERGY AND ENVIRONMENT (ICEE 2021)

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