基于计数器的先进优化层次模型从癌症患者的神经特征预测癌症

K. Laxminarayanamma, R. Krishnaiah, P. Sammulal
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引用次数: 0

摘要

基于癌症患者神经特征的癌症疾病预测是近年来备受关注的研究课题。数据在神经特征的处理和分析中起着至关重要的作用,其主要目标是从癌症患者的数据中高效地提取神经特征。从癌症患者数据中随机提取神经特征是一项新的研究。卷积神经网络(CNN)在各种医疗保健应用中有效地执行数据处理任务是一种很有前途的方法。已经提出了一些基于cnn的方法,利用遥感神经特征进行有效的癌症疾病预测。基于MPDCNN的癌症疾病提取是从Geo-Fan-2 (GF-2)感知癌症患者数据中提取特征并进行疾病预测的最佳CNN方法之一。然而,由于其最优边界排列稀疏、神经学特征精确、训练时间长,对癌症患者数据的神经学特征提取过程进行研究和自动化是不够的。为了改进神经系统特征自动预测过程,提出了一种新的基于优化多特征轮廓的分层神经网络(NOMFCHNN)。NOMFCHNN由扩展神经网络特征和初始相关层组成,其中包含有关网络定位的数据,该方法采用最优、精确的神经网络特征匹配和扩展特征提取。该方法还采用等高线地图优化,基于癌症患者数据的全球化来识别等高线,并将识别的等高线输出传输到所选层次区域的下一个识别等高线。此外,该方法对癌症患者数据中的低分辨率项进行评估,通过获得邻近最优和精确的神经学特征的预测结果,消除微小的变化或误差,从而从癌症患者数据中获取知识。采用多尺度特征预测模块,消除预测过程中编码与解码阶段的特征不一致,从而从遥感癌症患者数据中识别出更好的神经系统特征轮廓。对联合存储库癌症患者数据的大量实验表明,与用于远程分析神经特征的其他先进方法相比,所提出的方法提高了预测精度和其他参数。
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Advanced Optimized Counter based Hierarchal Model to Predict Cancer’s Disease from Cancer Patients Neurological Features
Cancer disease prediction based on neurological characteristics of cancer patients is gaining a significant research attention in recent times. The role of data in the processing and analysis of neurological features is critical, and the main goal is to efficiently extract neurological features from cancer patients' data. Random extraction of neurological features from cancer patient data is a new research initiative. Convolutional Neural Networks (CNN) is a promising approach in various healthcare applications to efficiently perform the data processing tasks. Some CNN-based approaches have been proposed to perform efficient cancer disease prediction using remotely sensed neurological features. Cancer disease extraction based on MPDCNN is one of the best CNN approaches used for extracting features and perform disease prediction from Geo-Fan-2 (GF-2) sensing cancer patient data. However, due to its sparse arrangement of optimal boundary, exact neurological features and high amount of training time, it is insufficient to investigate and automate the neurological feature extraction process from the cancer patient's data. A Novel Optimized Multi Feature Contour based Hierarchical Neural Network (NOMFCHNN) is proposed to improve the automatic neurological feature prediction process. NOMFCHNN is made up of expanding neural network features and layers related to inception, which contains the data about network localization, and this approach uses optimal and exact neurological feature matching with extended feature extraction. This method also employs contour map optimization to identify contours based on globalization of cancer patient data along with the output of the identified contour being transmitted to the next identified contour in the selected hierarchical region. Furthermore, the proposed approach evaluates the low- resolution term in cancer patient's data to gain knowledge from the cancer patient's data by obtaining the prediction results of neighbouring optimal and exact neurological features to eliminate small changes or errors. A multi scale feature Prediction module is used to eliminate feature inconsistency between the encoding and decoding phases of the prediction process in order to identify better contours of neurological features from remote sensing cancer patient's data. Extensive experiments on combined repository cancer patient data show that the proposed methodology improves the prediction accuracy and other parameters when compared to the other state-of-the-art methods used to remotely analyze the neurological features.
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