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ELW-CNN:一种超轻量级卷积神经网络,用于借助可解释人工智能提高结肠癌和肺癌识别中的互操作性。

ELW-CNN: An extremely lightweight convolutional neural network for enhancing interoperability in colon and lung cancer identification using explainable AI.

作者信息

Opee Shaiful Ajam, Eva Arifa Akter, Noor Ahmed Taj, Hasan Sayem Mustak, Mridha M F

机构信息

Department of Computer Science American International University-Bangladesh Dhaka Bangladesh.

Department of Computer Science Engineering Southeast University Dhaka Bangladesh.

出版信息

Healthc Technol Lett. 2025 Jan 22;12(1):e12122. doi: 10.1049/htl2.12122. eCollection 2025 Jan-Dec.

DOI:10.1049/htl2.12122
PMID:39845172
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11751720/
Abstract

Cancer is a condition in which cells in the body grow uncontrollably, often forming tumours and potentially spreading to various areas of the body. Cancer is a hazardous medical case in medical history analysis. Every year, many people die of cancer at an early stage. Therefore, it is necessary to accurately and early identify cancer to effectively treat and save human lives. However, various machine and deep learning models are effective for cancer identification. Therefore, the effectiveness of these efforts is limited by the small dataset size, poor data quality, interclass changes between lung squamous cell carcinoma and adenocarcinoma, difficulties with mobile device deployment, and lack of image and individual-level accuracy tests. To overcome these difficulties, this study proposed an extremely lightweight model using a convolutional neural network that achieved 98.16% accuracy for a large lung and colon dataset and individually achieved 99.02% for lung cancer and 99.40% for colon cancer. The proposed lightweight model used only 70 thousand parameters, which is highly effective for real-time solutions. Explainability methods such as Grad-CAM and symmetric explanation highlight specific regions of input data that affect the decision of the proposed model, helping to identify potential challenges. The proposed models will aid medical professionals in developing an automated and accurate approach for detecting various types of colon and lung cancer.

摘要

癌症是一种身体细胞不受控制地生长的病症,常常形成肿瘤并有可能扩散至身体的各个部位。在医学历史分析中,癌症是一种危险的病症。每年,许多人在癌症早期阶段死亡。因此,有必要准确且早期地识别癌症,以便有效地治疗和挽救生命。然而,各种机器学习和深度学习模型在癌症识别方面效果不佳。因此,这些努力的有效性受到数据集规模小、数据质量差、肺鳞状细胞癌和腺癌之间的类间变化、移动设备部署困难以及缺乏图像和个体水平准确性测试的限制。为克服这些困难,本研究提出了一种使用卷积神经网络的超轻量级模型,该模型在一个大型肺部和结肠数据集上达到了98.16%的准确率,在肺癌个体识别上达到了99.02%的准确率,在结肠癌个体识别上达到了99.40%的准确率。所提出的轻量级模型仅使用了7万个参数,这对于实时解决方案非常有效。诸如Grad-CAM和对称解释等可解释性方法突出了影响所提模型决策的输入数据的特定区域,有助于识别潜在挑战。所提出的模型将帮助医学专业人员开发一种用于检测各种类型结肠癌和肺癌的自动化且准确的方法。

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Automated Diagnosis for Colon Cancer Diseases Using Stacking Transformer Models and Explainable Artificial Intelligence.使用堆叠式变压器模型和可解释人工智能的结肠癌疾病自动诊断
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