基于CNN和RNN的左手x射线图像ROI自动检测

International Journal of Grid and Distributed Computing Pub Date : 2018-07-31 DOI:10.14257/ijgdc.2018.11.7.08

Youngbok Cho, Sunghee Woo

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引用次数: 6

摘要

医学图像处理中感兴趣区域的自动分割是一个非常重要但又很困难的问题。深度学习算法可以帮助临床医生和放射科医生确定诊断和治疗计划。我们提出并评估了一种使用卷积神经网络（CNNs）自动检测感兴趣区域ROI的概率方法。所提出的算法简单，可以划分为多个区域，并且可以为划分的区域提取特征。我们还提出了一种基于CNN和RNN的预处理算法，以自动对基于TW3的图像标准化微调后的ROI进行分类。与传统方法相比，结果准确率高出20%-40%。此外，输入图像的灵敏度大约高出40%，特异性等于或大于96%。

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Automated ROI Detection in Left Hand X-ray Images using CNN and RNN

Automatic segmentation of the area of interest in medical image processing is a very important but difficult problem. Deep learning algorithms can help clinicians and radiologists determine diagnosis and treatment plans. We propose and evaluate a probabilistic approach for automated region of interest ROIs detection using convolutional neural networks (CNNs). The proposed algorithm is simple and can be divide into regions and features can be extracted for the divided regions. We also propose a preprocessing algorithm based on CNN and RNN to automatically classify ROIs that are finely adjusted through image standardization based on TW3. The result is 20%-40% more accurate than those obtained using the conventional method. In addition, input image sensitivity is approximately 40% greater and the specificity was equal to or greater than 96%.

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来源期刊

International Journal of Grid and Distributed Computing COMPUTER SCIENCE, SOFTWARE ENGINEERING-

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0.00%

发文量

期刊介绍： IJGDC aims to facilitate and support research related to control and automation technology and its applications. Our Journal provides a chance for academic and industry professionals to discuss recent progress in the area of control and automation. To bridge the gap of users who do not have access to major databases where one should pay for every downloaded article; this online publication platform is open to all readers as part of our commitment to global scientific society. Journal Topics: -Architectures and Fabrics -Autonomic and Adaptive Systems -Cluster and Grid Integration -Creation and Management of Virtual Enterprises and Organizations -Dependable and Survivable Distributed Systems -Distributed and Large-Scale Data Access and Management -Distributed Multimedia Systems -Distributed Trust Management -eScience and eBusiness Applications -Fuzzy Algorithm -Grid Economy and Business Models -Histogram Methodology -Image or Speech Filtering -Image or Speech Recognition -Information Services -Large-Scale Group Communication -Metadata, Ontologies, and Provenance -Middleware and Toolkits -Monitoring, Management and Organization Tools -Networking and Security -Novel Distributed Applications -Performance Measurement and Modeling -Pervasive Computing -Problem Solving Environments -Programming Models, Tools and Environments -QoS and resource management -Real-time and Embedded Systems -Security and Trust in Grid and Distributed Systems -Sensor Networks -Utility Computing on Global Grids -Web Services and Service-Oriented Architecture -Wireless and Mobile Ad Hoc Networks -Workflow and Multi-agent Systems