This paper is published in Volume-7, Issue-3, 2021
Area
Electronics And Telecommunication Engineering
Author
Ankita Sonilal Neware, Shivani Anil Talmale, Nisha Suresh Mahure, Diptee Sheshrao Yerkhede, Vrushali Suklal Baghele, Dr. Pravin Raut
Org/Univ
Yeshwantrao Chavhan College of Engineering, Nagpur, Maharashtra, India
Pub. Date
31 May, 2021
Paper ID
V7I3-1582
Publisher
Keywords
Covid-19, Android application, QR code, QR based tracking, Bluetooth interface, RF circuit, PHP interface, Wireless communication.

Citationsacebook

IEEE
Ankita Sonilal Neware, Shivani Anil Talmale, Nisha Suresh Mahure, Diptee Sheshrao Yerkhede, Vrushali Suklal Baghele, Dr. Pravin Raut. Contagion buster contact tracing with app Integration, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Ankita Sonilal Neware, Shivani Anil Talmale, Nisha Suresh Mahure, Diptee Sheshrao Yerkhede, Vrushali Suklal Baghele, Dr. Pravin Raut (2021). Contagion buster contact tracing with app Integration. International Journal of Advance Research, Ideas and Innovations in Technology, 7(3) www.IJARIIT.com.

MLA
Ankita Sonilal Neware, Shivani Anil Talmale, Nisha Suresh Mahure, Diptee Sheshrao Yerkhede, Vrushali Suklal Baghele, Dr. Pravin Raut. "Contagion buster contact tracing with app Integration." International Journal of Advance Research, Ideas and Innovations in Technology 7.3 (2021). www.IJARIIT.com.

Abstract

Some of the recent developments in data science for worldwide disease control have involved research of large-scale feasibility and usefulness of digital contact tracing, user location tracking, and proximity detection on users’ mobile devices or wearables. A centralized solution relying on collecting and storing user traces and location information on a central server can provide more accurate and timely actions than a decentralized solution in combating viral outbreaks, such as COVID-19. However, centralized solutions are more prone to privacy breaches and privacy attacks by malevolent third parties than decentralized solutions, storing the information in a distributed manner among wireless networks. Thus, it is of timely relevance to identify and summarize the existing privacy-preserving solutions, focusing on decentralized methods, and analyzing them in the context of mobile device-based localization and tracking, contact tracing, and proximity detection. Wearables and other mobile Internet of Things devices are of particular interest in our study, as not only privacy, but also energy-efficiency, targets are becoming more and more critical to the end-users. This paper provides a comprehensive survey of user location-tracking, proximity-detection, and digital contact-tracing solutions in the literature from the past two decades, analyses their advantages and drawbacks concerning centralized and decentralized solutions, and presents the authors’ thoughts on future research directions in this timely research field.