Research on a Pulmonary Nodule Segmentation Method Combining Fast Self-adaptive FCM and Classification

Overview

Journal Comput Math Methods Med

Publisher Hindawi

Specialty Medical Informatics

Date 2015 May 7

PMID 25945120

Citations 3

Authors

Hui Liu

Cai-Ming Zhang

Zhi-Yuan Su

Kai Wang

Kai Deng

Affiliations

Soon will be listed here.

Abstract

The key problem of computer-aided diagnosis (CAD) of lung cancer is to segment pathologically changed tissues fast and accurately. As pulmonary nodules are potential manifestation of lung cancer, we propose a fast and self-adaptive pulmonary nodules segmentation method based on a combination of FCM clustering and classification learning. The enhanced spatial function considers contributions to fuzzy membership from both the grayscale similarity between central pixels and single neighboring pixels and the spatial similarity between central pixels and neighborhood and improves effectively the convergence rate and self-adaptivity of the algorithm. Experimental results show that the proposed method can achieve more accurate segmentation of vascular adhesion, pleural adhesion, and ground glass opacity (GGO) pulmonary nodules than other typical algorithms.

Citing Articles

An Automatic Random Walker Algorithm for Segmentation of Ground Glass Opacity Pulmonary Nodules.

Li X, Li B, Yin H, Xu B J Healthc Eng. 2022; 2022:6727957.

PMID: 36212245 PMC: 9537033. DOI: 10.1155/2022/6727957.

[Segmentation of ground glass pulmonary nodules using full convolution residual network based on atrous spatial pyramid pooling structure and attention mechanism].

Dong T, Wei L, Ye X, Chen Y, Hou X, Nie S Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2022; 39(3):441-451.

PMID: 35788513 PMC: 10950767. DOI: 10.7507/1001-5515.202010051.

Artificial Intelligence and its future potential in lung cancer screening.

Joy Mathew C, David A, Joy Mathew C EXCLI J. 2021; 19:1552-1562.

PMID: 33408594 PMC: 7783473. DOI: 10.17179/excli2020-3095.

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