| Literature DB >> 35582520 |
Rahul Saha1, Gulshan Kumar1, Neeraj Kumar2,3,4, Tai-Hoon Kim5, Tannishtha Devgun6, Reji Thomas7, Ahmed Barnawi8.
Abstract
The pandemic/epidemic of COVID-19 has affected people worldwide. A huge number of lives succumbed to death due to the sudden outbreak of this corona virus infection. The specified symptoms of COVID-19 detection are very common like normal flu; asymptomatic version of COVID-19 has become a critical issue. Therefore, as a precautionary measurement, the oxygen level needs to be monitored by every individual if no other critical condition is found. It is not the only parameter for COVID-19 detection but, as per the suggestions by different medical organizations such as the World Health Organization, it is better to use oximeter to monitor the oxygen level in probable patients as a precaution. People are using the oximeters personally; however, not having any clue or guidance regarding the measurements obtained. Therefore, in this article, we have shown a framework of oxygen level monitoring and severity calculation and probabilistic decision of being a COVID-19 patient. This framework is also able to maintain the privacy of patient information and uses probabilistic classification to measure the severity. Results are measured based on latency of blockchain creation and overall response, throughput, detection, and severity accuracy. The analysis finds the solution efficient and significant in the Internet of Things framework for the present health hazard in our world.Entities:
Keywords: Covid; Internet; Internet of Things (IoT); fog; healthcare; medical; monitoring; privacy
Year: 2021 PMID: 35582520 PMCID: PMC8956365 DOI: 10.1109/JIOT.2021.3098158
Source DB: PubMed Journal: IEEE Internet Things J ISSN: 2327-4662 Impact factor: 10.238