Mingzhe Li, Ningfeng Que, Juanhua Zhang, Pingfang Du, Yin Dai
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引用次数: 0
摘要
宫颈癌是全球常见的恶性肿瘤,在不发达国家的发病率和死亡率都很高。巴氏涂片检查被广泛用于宫颈癌的早期检测,其目的是最大限度地减少漏诊,而漏诊有时会导致较高的假阳性率。为了提高人工筛查的效率,基于机器学习(ML)和深度学习(DL)的计算机辅助诊断(CAD)系统已被广泛研究,用于对宫颈巴氏细胞进行分类。在我们的研究中,我们针对宫颈细胞分类任务引入了一种基于深度学习的方法,名为 VTCNet。我们的方法结合了 CNN-SPPF 和 ViT 组件,集成了 Focus 和 SeparableC3 等模块,以捕获更多潜在信息,提取局部和全局特征,并将它们合并以提高分类性能。我们在公开的 SIPaKMeD 数据集上评估了我们的方法,其准确率、精确度、召回率和 F1 分数分别达到了 97.16%、97.22%、97.19% 和 97.18%。我们还在 Herlev 数据集上进行了额外的实验,结果优于之前的方法。通过这种集成,VTCNet 方法比传统的 ML 或浅层 DL 模型获得了更高的分类准确率。相关代码:https://github.com/Camellia-0892/VTCNet/tree/main.
VTCNet: A Feature Fusion DL Model Based on CNN and ViT for the Classification of Cervical Cells
Cervical cancer is a common malignancy worldwide with high incidence and mortality rates in underdeveloped countries. The Pap smear test, widely used for early detection of cervical cancer, aims to minimize missed diagnoses, which sometimes results in higher false-positive rates. To enhance manual screening practices, computer-aided diagnosis (CAD) systems based on machine learning (ML) and deep learning (DL) for classifying cervical Pap cells have been extensively researched. In our study, we introduced a DL-based method named VTCNet for the task of cervical cell classification. Our approach combines CNN-SPPF and ViT components, integrating modules like Focus and SeparableC3, to capture more potential information, extract local and global features, and merge them to enhance classification performance. We evaluated our method on the public SIPaKMeD dataset, achieving accuracies, precision, recall, and F1 scores of 97.16%, 97.22%, 97.19%, and 97.18%, respectively. We also conducted additional experiments on the Herlev dataset, where our results outperformed previous methods. The VTCNet method achieved higher classification accuracy than traditional ML or shallow DL models through this integration. Related codes: https://github.com/Camellia-0892/VTCNet/tree/main.
期刊介绍:
The International Journal of Imaging Systems and Technology (IMA) is a forum for the exchange of ideas and results relevant to imaging systems, including imaging physics and informatics. The journal covers all imaging modalities in humans and animals.
IMA accepts technically sound and scientifically rigorous research in the interdisciplinary field of imaging, including relevant algorithmic research and hardware and software development, and their applications relevant to medical research. The journal provides a platform to publish original research in structural and functional imaging.
The journal is also open to imaging studies of the human body and on animals that describe novel diagnostic imaging and analyses methods. Technical, theoretical, and clinical research in both normal and clinical populations is encouraged. Submissions describing methods, software, databases, replication studies as well as negative results are also considered.
The scope of the journal includes, but is not limited to, the following in the context of biomedical research:
Imaging and neuro-imaging modalities: structural MRI, functional MRI, PET, SPECT, CT, ultrasound, EEG, MEG, NIRS etc.;
Neuromodulation and brain stimulation techniques such as TMS and tDCS;
Software and hardware for imaging, especially related to human and animal health;
Image segmentation in normal and clinical populations;
Pattern analysis and classification using machine learning techniques;
Computational modeling and analysis;
Brain connectivity and connectomics;
Systems-level characterization of brain function;
Neural networks and neurorobotics;
Computer vision, based on human/animal physiology;
Brain-computer interface (BCI) technology;
Big data, databasing and data mining.
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