Pervasive computing in the context of COVID-19 prediction with AI-based algorithms

Int. J. Pervasive Comput. Commun. Pub Date : 2020-08-06 DOI:10.1108/ijpcc-07-2020-0082

S. Magesh, R. NivedithaV., S. RajakumarP., S. RadhaRamMohan, L. Natrayan

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引用次数: 46

Abstract

Purpose The current and on-going coronavirus (COVID-19) has disrupted many human lives all over the world and seems very difficult to confront this global crisis as the infection is transmitted by physical contact. As no vaccine or medical treatment made available till date, the only solution is to detect the COVID-19 cases, block the transmission, isolate the infected and protect the susceptible population. In this scenario, the pervasive computing becomes essential, as it is environment-centric and data acquisition via smart devices provides better way for analysing diseases with various parameters. Design/methodology/approach For data collection, Infrared Thermometer, Hikvision’s Thermographic Camera and Acoustic device are deployed. Data-imputation is carried out by principal component analysis. A mathematical model susceptible, infected and recovered (SIR) is implemented for classifying COVID-19 cases. The recurrent neural network (RNN) with long-term short memory is enacted to predict the COVID-19 disease. Findings Machine learning models are very efficient in predicting diseases. In the proposed research work, besides contribution of smart devices, Artificial Intelligence detector is deployed to reduce false alarms. A mathematical model SIR is integrated with machine learning techniques for better classification. Implementation of RNN with Long Short Term Memory (LSTM) model furnishes better prediction holding the previous history. Originality/value The proposed research collected COVID −19 data using three types of sensors for temperature sensing and detecting the respiratory rate. After pre-processing, 300 instances are taken for experimental results considering the demographic features: Sex, Patient Age, Temperature, Finding and Clinical Trials. Classification is performed using SIR mode and finally predicted 188 confirmed cases using RNN with LSTM model.

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基于ai算法的COVID-19预测背景下的普适计算

当前和持续的冠状病毒(COVID-19)已经扰乱了全世界许多人的生活，由于感染是通过身体接触传播的，因此似乎很难应对这一全球危机。由于迄今没有疫苗或医疗手段，唯一的解决办法是发现COVID-19病例，阻断传播，隔离感染者并保护易感人群。在这种情况下，普适计算变得至关重要，因为它以环境为中心，通过智能设备获取数据为分析各种参数的疾病提供了更好的方法。设计/方法/方法为了收集数据，使用了红外温度计、海康威视的热像仪和声学设备。数据的输入采用主成分分析方法。采用易感、感染、康复(SIR)数学模型对新冠肺炎病例进行分类。采用具有长短时记忆的递归神经网络(RNN)对COVID-19疾病进行预测。机器学习模型在预测疾病方面非常有效。在本文提出的研究工作中，除了智能设备的贡献外，还部署了人工智能探测器来减少误报。数学模型SIR与机器学习技术相结合，以实现更好的分类。利用长短期记忆(LSTM)模型实现的RNN具有较好的预测历史。独创性/价值拟议的研究使用三种传感器收集COVID - 19数据，用于温度传感和检测呼吸速率。经过预处理，选取300个实例作为实验结果，考虑人口统计学特征:性别、患者年龄、体温、发现和临床试验。采用SIR模式进行分类，最后利用RNN结合LSTM模型预测188例确诊病例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. Pervasive Comput. Commun.

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