Advance IoT Intelligent Healthcare System for Lung Disease Classification Using Ensemble Techniques  

作　　者：J.Prabakaran P.Selvaraj 

机构地区：[1]Department of Networking communications,Faculty of Engineering and Technology,SRM Institute of Science and Technology,Kattankulathur,603203,Tamilnadu,India [2]Department of Computing Technologies,Faculty of Engineering and Technology,SRM Institute of Science and Technology,Kattankulathur,603203,Tamilnadu,India

出　　处：《Computer Systems Science & Engineering》2023年第8期2141-2157,共17页计算机系统科学与工程（英文）

摘　　要：In healthcare systems,the Internet of Things(IoT)innovation and development approached new ways to evaluate patient data.A cloud-based platform tends to process data generated by IoT medical devices instead of high storage,and computational hardware.In this paper,an intelligent healthcare system has been proposed for the prediction and severity analysis of lung disease from chest computer tomography(CT)images of patients with pneumonia,Covid-19,tuberculosis(TB),and cancer.Firstly,the CT images are captured and transmitted to the fog node through IoT devices.In the fog node,the image gets modified into a convenient and efficient format for further processing.advanced encryption Standard(AES)algorithm serves a substantial role in IoT and fog nodes for preventing data from being accessed by other operating systems.Finally,the preprocessed image can be classified automatically in the cloud by using various transfer and ensemble learning models.Herein different pre-trained deep learning architectures(Inception-ResNet-v2,VGG-19,ResNet-50)used transfer learning is adopted for feature extraction.The softmax of heterogeneous base classifiers assists to make individual predictions.As a meta-classifier,the ensemble approach is employed to obtain final optimal results.Disease predicted image is consigned to the recurrent neural network with long short-term memory(RNN-LSTM)for severity analysis,and the patient is directed to seek therapy based on the outcome.The proposed method achieved 98.6%accuracy,0.978 precision,0.982 recalls,and 0.974 F1-score on five class classifications.The experimental findings reveal that the proposed framework assists medical experts with lung disease screening and provides a valuable second perspective.

关 键 词：Intelligent health care cloud computing fog computing ensemble learning RNN-LSTM 

分 类 号：R563[医药卫生—呼吸系统]