基于集成机器学习的单个和聚类宫颈细胞分类方法

2019 IEEE 20th International Conference on Information Reuse and Integration for Data Science (IRI) Pub Date : 2019-07-01 DOI:10.1109/IRI.2019.00043

Mohammed Kuko, M. Pourhomayoun

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引用次数: 14

摘要

在最近的历史中，子宫颈癌是育龄妇女死亡的一个主要原因。20世纪50年代，这种情况发生了变化，巴氏涂片检查被引入到早期宫颈癌的识别和诊断中。巴氏涂片检查的引入使宫颈癌相关的死亡率下降了60%，但在美国每年仍有大约4,210名妇女死于宫颈癌。我们的研究目标是通过尖端的机器视觉和集成学习技术，帮助在巴氏涂片或液体细胞学(LBC)中识别和分类宫颈癌的方法。本研究的贡献是开发一种自动巴氏涂片筛查系统，该系统可以识别宫颈细胞切片样本中的细胞，并根据Bethesda系统报告的宫颈细胞学定义将细胞和细胞簇分类为异常或正常。当用五倍交叉验证评估时，达到90.4%的准确性表明了创建自动巴氏涂片筛查测试的希望。

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An Ensemble Machine Learning Method for Single and Clustered Cervical Cell Classification

Cervical Cancer was in recent history a major cause of death for women of childbearing age. This changed when in the 1950s the Papanicolaou (Pap smear) test was introduced to identify and diagnose cervical cancer in its infancy. The introduction of the Pap smear test dropped cervical cancer related deaths by 60% but still approximately 4,210 women die from cervical cancer in the United State annually. The goal of our research is to aid in the methods of identifying and classifying cervical cancer used in the Pap smear or Liquid-based Cytology (LBC) with cutting edge machine vision, and ensemble learning techniques. The contribution of this research is to develop an automated Pap smear screening system that identifies cells within a cervical cell slide sample and classify cells and clusters of cells as abnormal or normal as defined by the Bethesda System for reporting cervical cytology. Achieving an accuracy of 90.4% when evaluated with a five-fold cross-validation demonstrates promise in the creation of an automated Pap smear screening test.

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来源期刊

2019 IEEE 20th International Conference on Information Reuse and Integration for Data Science (IRI)

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