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疫情后世界中基于物联网的自动消毒洗手液分配器及新冠疫情统计报告器。

Internet of Things (IoT) based automated sanitizer dispenser and COVID-19 statistics reporter in a post-pandemic world.

作者信息

G Ashok, J John Paul, I Thusnavis Mary Bella, Packiavathy Sybiya Vasantha, Gautam Sneha

机构信息

Department of ECE, Karunya Institute of Technology and Sciences, Coimbatore, India.

Department of Biotechnology, Karunya Institute of Technology and Sciences, Coimbatore, India.

出版信息

Health Technol (Berl). 2023;13(2):327-341. doi: 10.1007/s12553-023-00728-4. Epub 2023 Jan 20.

DOI:10.1007/s12553-023-00728-4
PMID:36694669
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9851904/
Abstract

PURPOSE

Coronavirus is among the deadliest viruses of the 21st century. There is still a Coronavirus epidemic that affects most countries worldwide today. To prevent future outbreaks and protect public health, it is essential to invest in research and innovation on vaccines, treatments, diagnostic tests, public health infrastructure, and emergency response planning. Additionally, we need to work on mitigation strategies and take a comprehensive and multidisciplinary approach to prevent and fight against the virus.

METHODS

For the purpose of preventing the spread of microbial organisms, it is essential to take advantage of automatic sanitizer dispensers by deploying them in public places. This is one of the most feasible and effective ways to ensure that people have easy access to hand sanitizer and can reduce the spread of germs.

RESULTS

The proposed solution is a contactless sanitizer dispenser with an integrated temperature monitoring system, as well as an alert system for users who exhibit the symptom of infection. Moreover, the proposed solution has added advantage of interfacing with an electronic door so that we can easily implement it at the entrance of a public building/public transportation. This dispenser will also collect data that can be used to identify a symptomatic user and alert the appropriate authorities for safe quarantine. In addition, it is also used to monitor usage metrics, record user entries, and conduct statistical surveys using the ThinkSpeak platform.

CONCLUSIONS

The proposed model could be a feasible solution to prevent the entry of infected persons and asymptomatic carriers indoors. This can be achieved by implementing automated temperature screening before allowing entry into the building. This can help identify individuals who are potentially infected with the virus and prevent them from entering the premises and potentially spreading the disease to others. Overall, the proposed model is a comprehensive and practical solution that can help to prevent the entry of infected persons and asymptomatic carriers indoors and help to keep the public safe.

摘要

目的

冠状病毒是21世纪最致命的病毒之一。如今仍有一场影响全球大多数国家的冠状病毒疫情。为防止未来疫情爆发并保护公众健康,对疫苗、治疗方法、诊断测试、公共卫生基础设施和应急响应规划进行研究和创新投资至关重要。此外,我们需要制定缓解策略,并采取全面的多学科方法来预防和抗击该病毒。

方法

为防止微生物传播,在公共场所部署自动洗手液分配器至关重要。这是确保人们方便获取洗手液并减少病菌传播的最可行、最有效的方法之一。

结果

所提出的解决方案是一种带有集成温度监测系统的非接触式洗手液分配器,以及针对出现感染症状用户的警报系统。此外,所提出的解决方案还有与电子门接口的额外优势,这样我们可以轻松地在公共建筑/公共交通的入口处实施。这种分配器还将收集可用于识别有症状用户的数据,并提醒相关当局进行安全隔离。此外,它还用于监测使用指标、记录用户进入情况,并使用ThinkSpeak平台进行统计调查。

结论

所提出的模型可能是防止感染者和无症状携带者进入室内的可行解决方案。这可以通过在允许进入建筑物之前实施自动体温筛查来实现。这有助于识别可能感染病毒的个人,防止他们进入场所并可能将疾病传播给他人。总体而言,所提出的模型是一个全面且实用的解决方案,有助于防止感染者和无症状携带者进入室内,并有助于保障公众安全。

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