‏COVID-19 Quarantine Monitoring Based on Geofencing Technique

Year 2021, Volume: 7 Issue: 2, 39 - 46, 24.06.2021

Nawar Alqrnawi , Indrıt Myderrizi

https://doi.org/10.19072/ijet.953560

Cited By: 3

Abstract

‏Smartphone and satellite network coverage contributes to a number of useful applications that increase the comfort of everyday people's lives. Using the Global Positioning System (GPS) provided by the satellite, people can be tracked in real time at a specific location. When it comes to infectious diseases such as COVID-19, the most important measure to reduce its spread is to contain it. Quarantine is usually a solution and any tracking system can be employed to specify the location of the infected people. However, as quarantined areas are scattered around the world, it is difficult to accurately trace the boundaries within accommodation. A geo-fenced GPS system, which has adopted an efficient border protection system, is proposed for quarantine and monitoring purposes of COVID-19 carriers. The system is introduced as an application to implement a home/local quarantine policy using bracelets that fit the boundaries of smartphones. From the experimental results obtained, it is observed that the proposed system achieves an effective and high accuracy performance in various location conditions.

Keywords

Quarantine;, Tracking system;, GPS, GSM

References

• A. A. M da Silva, ‘On the possibility of interrupting the coronavirus (COVID-19) epidemic based on the best available scientific evidence’, Rev Bras Epidemiol, 23, e200021, 2020.‏
• F. Reclus, and K. Drouard, ‘Geofencing for fleet & freight management’, 9th International Conference on Intelligent Transport Systems Telecommunications (ITST), Lille, France, pp. 353-356, October 20-22, 2009.
• R. R. Oliveira, et al. ‘SWTRACK: An intelligent model for cargo tracking based on off-the-shelf mobile devices’ Expert Systems with Applications 40, pp. 2023-2031, 2013.‏
• J. Tan, et al. ‘IoT Geofencing for COVID-19 Home Quarantine Enforcement’, IEEE Internet of Things Magazine 3.3, pp. 24-29, 2020.
• U. Bharavi, and R. M. Sukesh. ‘Design and development of GSM and GPS tracking module’, 2nd IEEE International Conference on Recent Trends in Electronics, Information & Communication Technology (RTEICT), India, pp. 283-288, May 19-20, 2017.
• E. Z. Adwan, ‘Real Time Cost Effective Of People Tracking System’, Master Thesis, Islamic University – Gaza, Palestine, 2015.‏
• S. Namkhun, and D. Hormdee, ‘Two-Way Semi-Offline Location Tracking and Control System via GSM’, ITC-CSCC, Gyeongju, Korea, pp. 476-479, June 19-22, 2011.
• R. Anto Arockia Rosaline, et al. ‘Tracking the Covid zones through geo-fencing technique’, International Journal of Pervasive Computing and Communications, Emerald Pub. Ltd., 2020.
• D. Suganthi, et al. ‘Vehicle tracking with geofencing on Android platform’, International Journal of Engineering Science and Technology, pp. 16992-16995, 2018.
• S. W. Rahate, and M. Z. Shaikh, ‘Geo-fencing infrastructure: location based service’, International Research Journal of Engineering and Technology, Vol. 3, No. 11, pp. 1095-1098, 2016.
• P. Mohite, et al. ‘Geofencing and location based reminder services’, International Journal of Advance Engineering and Research Development, Vol. 3, No.10, pp. 137-141, 2016.
• W. El-Medany, et al. ‘A cost effective real-time tracking system prototype using integrated GPS/GPRS module’, 6th International Conference on Wireless and Mobile Communications (ICWMC), Valencia, Spain, pp. 521-525, September 20-25, 2010.
• A. ElShafee, et al. ‘Integrating social network services with vehicle tracking technologies’, International Journal of Advanced Computer Science and Applications Vol. 4, No. 6,‏ pp. 124-132, 2013.
• P. Verma, and J. S. Bhatia, ‘Design and development of GPS-GSM based tracking system with Google map based monitoring’, International Journal of Computer Science, Engineering and Applications (IJCSEA), Vol. 3, No. 3, pp. 33-40, 2013.
• Z. Ozdemir, and B. Tugrul, ‘Geofencing on the Real-Time GPS Tracking System and Improving GPS Accuracy with Moving Average, Kalman Filter and Logistic Regression Analysis’, 3rd International Symposium on Multi-disciplinary Studies and Innovative Technologies (ISMSIT), Ankara, Turkey, pp. 1-6, October 11-13, 2019.
• R. J. Bates, ‘GPRS: general packet radio service’, McGraw-Hill Professional, 2001.
• R. Bajaj, et al. ‘GPS: location-tracking technology’, Computer, 35(4), pp. 92-93, 2002.
• B. Lee, et al. ‘Development of self-localizer using collaboration of trilateration and triangulation’, 11th International Conference on Fuzzy Systems and Knowledge Discovery (FSKD), Xiamen, China, pp. 729-733, August 19-21, 2014.
• S. R. Garzon, et al. ‘Infrastructure-assisted geofencing: proactive location-based services with thin mobile clients and smart servers’, 3rd IEEE International Conference on Mobile Cloud Computing, Services, and Engineering, San Francisco, CA, USA, pp. 61-70, March 30-April 3, 2015.
• S. R. Garzon, and B. Deva, ‘Geofencing 2.0: taking location-based notifications to the next level’, ACM International Joint Conference on Pervasive and Ubiquitous Computing, Seattle, WA, USA, pp. 919-930, September 13-17, 2014.