Body Temperature Monitoring for Regular COVID-19 Prevention Based on Human Daily Activity Recognition

Zhang, Lei; Zhu, Yanjin; Jiang, Mingliang; Wu, Yuchen; Deng, Kailian; Ni, Quan

doi:10.3390/s21227540

Cited by 27 publications

(15 citation statements)

References 38 publications

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“…However, this does not mean that no patient had a high temperature, since several of the patients had an elevated skin temperature on the second day, which might be due to inflammation. In addition, it is reported that fever is one of the prominent clinical symptoms of novel coronavirus patients [20]. Moreover, the decrease in temperature (3 rd day) may be due to the patients being given antipyretic drugs as a part of the hospital treatment protocol.…”

Section: Discussionmentioning

confidence: 99%

Monitoring the skin biophysical parameters among coronavirus patients for three days in a row: a preliminary study

Salih

Bari

Aldosky

2022

Journal of Electrical Bioimpedance

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The coronavirus epidemic 2019 is spreading all over the world now. Several parameters are used to monitor the status of hospitalized patients; however, monitoring variations in biophysical properties of the skin has not been investigated yet. In this preliminary study, we seek to monitor skin biophysical parameters among coronavirus patients for three days in a row. Skin moisture, pH, sebum, and temperature during the three days were monitored in 30 coronavirus patients by using non-invasive portable instruments. Skin biophysical parameters were increased on the third day of monitoring compared to the first one. In addition, the increase in both skin moisture and temperature were statistically significant. According to the results of this preliminary study, skin biophysical parameters changed (increased) during the specified period in which the patients were monitored. However, changes in skin sebum content and pH were not significant. These skin parameters need to be further investigated until we know their indication ability for the health condition of coronavirus patients in clinical applications.

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Section: Discussionmentioning

confidence: 99%

Monitoring the skin biophysical parameters among coronavirus patients for three days in a row: a preliminary study

Salih

Bari

Aldosky

2022

Journal of Electrical Bioimpedance

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“…Zhang, Zhu [105] presented a wearable device with inertial and temperature sensors that may be utilized to apply human behavior recognition (HAR) to body surface temperature detection and correction during COVID-19. The sensing device used a microcontroller, a 6-axis sensor, and a temperature sensor to collect data from ten different users in four distinct daily activity situations.…”

Section: Monitoring and Tracking Methodsmentioning

confidence: 99%

Machine learning applications for COVID-19 outbreak management

Heidari

Navimipour

Ünal

et al. 2022

Neural Comput & Applic

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Recently, the COVID-19 epidemic has resulted in millions of deaths and has impacted practically every area of human life. Several machine learning (ML) approaches are employed in the medical field in many applications, including detecting and monitoring patients, notably in COVID-19 management. Different medical imaging systems, such as computed tomography (CT) and X-ray, offer ML an excellent platform for combating the pandemic. Because of this need, a significant quantity of study has been carried out; thus, in this work, we employed a systematic literature review (SLR) to cover all aspects of outcomes from related papers. Imaging methods, survival analysis, forecasting, economic and geographical issues, monitoring methods, medication development, and hybrid apps are the seven key uses of applications employed in the COVID-19 pandemic. Conventional neural networks (CNNs), long short-term memory networks (LSTM), recurrent neural networks (RNNs), generative adversarial networks (GANs), autoencoders, random forest, and other ML techniques are frequently used in such scenarios. Next, cutting-edge applications related to ML techniques for pandemic medical issues are discussed. Various problems and challenges linked with ML applications for this pandemic were reviewed. It is expected that additional research will be conducted in the upcoming to limit the spread and catastrophe management. According to the data, most papers are evaluated mainly on characteristics such as flexibility and accuracy, while other factors such as safety are overlooked. Also, Keras was the most often used library in the research studied, accounting for 24.4 percent of the time. Furthermore, medical imaging systems are employed for diagnostic reasons in 20.4 percent of applications.

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“…IoT devices are able to measure specific human physiological parameters such as heart rate (HR), respiration rate (RR) and blood pressure (BP), electrocardiogram (ECG), Electroencephalogram (EEG), electromyography (EMG), body temperature, Oxygen levels, blood glucose (BG), and the volume of air inspired and expired by lungs (Swayamsiddha and Mohanty, 2020;Chakkor et al, 2021b;Zhang et al, 2021), so that the early diagnosis and necessary treatment can be given One proposed system leverages IoT devices as part of its architecture to actively monitor users data and send this data to heath care centers for evaluation. Also, there are relatively new measurements that monitor the users' heart rate, number of daily steps and sleep time to scan pre-symptomatic cases of COVID-19 for the same purpose-early diagnosis and timely necessary treatment (Josephine et al, 2020;Lo and Sim, 2021;Ni et al, 2021b;Dadon et al, 2022).…”

Section: Detection and Monitoringmentioning

confidence: 99%

“…Detection and monitoring (Arun et al, 2020;Choyon et al, 2020;Dhadge and Tilekar, 2020;Ding et al, 2020;Hossain et al, 2020;Josephine et al, 2020;Karthi and Jayakumar, 2020;Seshadri et al, 2020;Swayamsiddha and Mohanty, 2020;Al-Emran and Ehrenfeld, 2021;Anjali et al, 2021;Ashwin et al, 2021;Awotunde et al, 2021Awotunde et al, , 2022Chakkor et al, 2021a,b;Elbasi et al, 2021;Lo and Sim, 2021;Lubecke et al, 2021;Mukati et al, 2021;Mumtaz et al, 2021;Ni et al, 2021b;Peladarinos et al, 2021;Rehman et al, 2021;Tan et al, 2021;Uddin et al, 2021;Zhang et al, 2021;Dadon et al, 2022;Goergen et al, 2022) Contact tracing Indoor contact tracing (Jeong et al, 2019;Dmitrienko et al, 2020;Kumar et al, 2022;Li et al, 2020b;Otoom et al, 2020;Schmidtke, 2020;Thangamani et al, 2020;Abueg et al, 2021;Lo and Sim, 2021;Mcheick et al, 2021;Wojtusiak et al, 2021) Outdoor contact tracing (Elbir et al, 2020;Maghdid and Ghafoor, 2020;Ting et al, 2020;…”

Section: Section Category Referencesmentioning

confidence: 99%

A survey of COVID-19 detection and prediction approaches using mobile devices, AI, and telemedicine

Shen

Ghatti

Levkov

et al. 2022

Front. Artif. Intell.

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Since 2019, the COVID-19 pandemic has had an extremely high impact on all facets of the society and will potentially have an everlasting impact for years to come. In response to this, over the past years, there have been a significant number of research efforts on exploring approaches to combat COVID-19. In this paper, we present a survey of the current research efforts on using mobile Internet of Thing (IoT) devices, Artificial Intelligence (AI), and telemedicine for COVID-19 detection and prediction. We first present the background and then present current research in this field. Specifically, we present the research on COVID-19 monitoring and detection, contact tracing, machine learning based approaches, telemedicine, and security. We finally discuss the challenges and the future work that lay ahead in this field before concluding this paper.

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Body Temperature Monitoring for Regular COVID-19 Prevention Based on Human Daily Activity Recognition

Cited by 27 publications

References 38 publications

Monitoring the skin biophysical parameters among coronavirus patients for three days in a row: a preliminary study

Monitoring the skin biophysical parameters among coronavirus patients for three days in a row: a preliminary study

Machine learning applications for COVID-19 outbreak management

A survey of COVID-19 detection and prediction approaches using mobile devices, AI, and telemedicine

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