Sunil Kumar K N, Pavan P. Kashyap, Darshan A. Bhyratae, Suhas A. Bhyratae, A. Kalaivani
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引用次数: 0
摘要
计算机辅助诊断(CAD)是全球癌症鉴定的首选,它依赖于计算机化图像处理。以前的计算机辅助诊断工具的创建采用了半自动化方法,使用了传统的深度学习技术。此类技术在准确性方面与 CAD 仪器并不匹配。因此,本手稿提出了一种嵌入贝叶斯优化和长短期记忆(CNN-BO-LSTM)的卷积神经网络归一化架构,用于识别肝癌。首先对输入的磁共振成像(MRI)扫描图像进行预处理,以提高清晰度。接下来,我们使用动态二元分类法来应用准确的兴趣区域(ROI)提取方法。随后,我们从 ROI 方法中自动检索基于 CNN 的外观。为了达到分类目的,我们使用了 LSTM,将图像分为良性和恶性。建议设计的测试结果结合了基于 CNN 的 ROI 提取和 LSTM 分类的特点,超越了当前最先进的技术。
CNN-BO-LSTM: an ensemble framework for prognosis of liver cancer
Computer-assisted diagnosis (CAD) is preferred for cancer identification across the globe, which relies on computerized image processing. The creation of previous CAD instruments involved a semi-automated approach that employed traditional deep learning techniques. Such techniques are not well versed with CAD instruments in terms of accuracy. Therefore, the given manuscript presents a convolutional neural network normalized architecture embedded with Bayesian optimization and long short-term memory (CNN-BO-LSTM) for the identification of liver cancer. Early pre-processing is done on the input magnetic resonance imaging (MRI) scan images to improve clarity. Next, we used dynamic binary classification to apply the accurate and region of interest (ROI) extracting approach. It is followed by automatic retrieval of CNN-based appearances from the ROI approach. For classification purposes, LSTM is used, which categorizes the images as benign or malignant. The proposed design’s testing outcomes, which combine characteristics with CNN-based ROI extraction and LSTM classification, surpassed the current state-of-the-art techniques.
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