Abstract
The recent unprecedented threat from COVID-19 and past epidemics, such as SARS, AIDS, and Ebola, has affected millions of people in multiple countries. Countries have shut their borders, and their nationals have been advised to self-quarantine. The variety of responses to the pandemic has given rise to data privacy concerns. Infection prevention and control strategies as well as disease control measures, especially real-time contact tracing for COVID-19, require the identification of people exposed to COVID-19. Such tracing frameworks use mobile apps and geolocations to trace individuals. However, while the motive may be well intended, the limitations and security issues associated with using such a technology are a serious cause of concern. There are growing concerns regarding the privacy of an individual’s location and personal identifiable information (PII) being shared with governments and/or health agencies. This study presents a real-time, trust-based contact-tracing framework that operates without the use of an individual’s PII, location sensing, or gathering GPS logs. The focus of the proposed contact tracing framework is to ensure real-time privacy using the Bluetooth range of individuals to determine others within the range. The research validates the trust-based framework using Bluetooth as practical and privacy-aware. Using our proposed methodology, personal information, health logs, and location data will be secure and not abused. This research analyzes 100,000 tracing dataset records from 150 mobile devices to identify infected users and active users.
Highlights
Epidemics such as H1N1, SARS, Ebola, and the recent coronavirus have impacted millions of people worldwide, resulting in a large death toll
This study proposes the use of a mobile application with Bluetooth connectivity to perform real-time contact tracing
This research considered different time slots during which users turn ON their Bluetooth to evaluate the effectiveness of our protocols in different scenarios
Summary
Epidemics such as H1N1, SARS, Ebola, and the recent coronavirus have impacted millions of people worldwide, resulting in a large death toll. While most individuals may be comfortable with sharing this information for their own and the nation’s benefit, privacy-aware individuals may not be so willing This can hinder the contact tracing process, even as the virus continues to spread at alarming rates [3]. The authors propose the use of mobile devices to send anonymous beacons of encrypted random code messages via Bluetooth. The proposed contact tracing application does not involve any public wireless or network infrastructure This technology process helps to monitor infected individuals as well as reduce the medical costs involved during quarantine measures.
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