Abstract
Geo-location services are widely used by numerous applications and devices. E-scooters have become one of the recent prevalent devices that uses these services. Geo-location services are highly vulnerable to spoofing attacks. Spoofing detection and prevention techniques have been researched for time. Most of the researches have been focused on smart devices such as smartphones, UAVs or other vehicles. Geo-location spoofing also poses significant threats on e-scooters for user security, costs and reliability. In this study, we analyze the location spoofing threats on e-scooter sharing environment and propose a spoofing detection framework. The proposed framework monitors e-scooter’s location and tracks significant changes. The proposed service based framework is able to provide different levels of awareness, and enabled capabilities.
Publisher
Balkan Journal of Electrical & Computer Engineering (BAJECE)
Reference20 articles.
1. [1] Jindal, K.; Dalal, S.; Sharma, K. K. “Analyzing Spoofing Attacks in Wireless Networks”. 2014 Fourth International Conference on Advanced Computing Communication Technologies: (February 2014), 398–402. doi:10.1109/ACCT.2014.46. ISBN 978-1-4799-4910- 6. S2CID 15611849.
2. [2] Getting the User’s Location, Apple Developer Documentation. [Online]. [Accessed: 10-Dec-2022]. Available: https://developer.apple.com/documentation/corelocation/gettingtheuserslocation.
3. [3] Geolocation API, Google. [Online]. [Accessed: 10-Dec-2022]. Available: https://developers.google.com/maps/documentation/geolocation/overview
4. [4] EUROPEAN GNSS (GALILEO) OPEN SERVICE Issue 2.0, January 2021 NAVIGATION SOLUTIONS POWERED BY EUROPE SIGNALIN-SPACE INTERFACE CONTROL DOCUMENT
5. [5] N. Vinayaga-Sureshkanth, R. Wijewickrama, A. Maiti, and M. Jadliwala, “Security and privacy challenges in upcoming Intelligent Urban Micromobility Transportation Systems,” Proceedings of the Second ACM Workshop on Automotive and Aerial Vehicle Security, (2020). doi:10.1145/3375706.3380559