On GPS spoofing of aerial platforms: a review of threats, challenges, methodologies, and future research directions

Unmanned Aerial Systems (UAVs, Drones), initially known only for their military applications, are getting increasingly popular in the civil sector as well. Over the military canvas, drones have already proven themselves as a potent force multiplier through unmanned, round-the-clock, long-range and h...

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Bibliographic Details
Published in:PeerJ. Computer science 2021-05, Vol.7, p.e507-e507, Article e507
Main Authors: Khan, Shah Zahid, Mohsin, Mujahid, Iqbal, Waseem
Format: Article
Language:English
Subjects:
Algorithms and Analysis of Algorithms
Autonomous Systems
Cryptography
Disaster relief
Drone aircraft
Drones
Electronic warfare
Global Positioning System
Global positioning systems
GPS
GPS spoofing
Hardware
Internet of Things
Jamming
Jamming of communications
Liability
Methods
Military applications
Platforms
R&D
Research & development
Risk assessment
Safety
Safety and security measures
Satellite navigation systems
Search and rescue missions
Security and Privacy
Security aspects
Security threats
Spatial and Geographic Information Systems
Spoofing
Surveillance
Survey
Taxonomy
Threats
UAVs
Unmanned aerial vehicles
Wang, Chen
Weight reduction
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Summary:Unmanned Aerial Systems (UAVs, Drones), initially known only for their military applications, are getting increasingly popular in the civil sector as well. Over the military canvas, drones have already proven themselves as a potent force multiplier through unmanned, round-the-clock, long-range and high-endurance missions for surveillance, reconnaissance, search and rescue, and even armed combat applications. With the emergence of the Internet of Things (IoT), commercial deployments of drones are also growing exponentially, ranging from cargo and taxi services to agriculture, disaster relief, risk assessment and monitoring of critical infrastructures. Irrespective of the deployment sector, drones are often entrusted to conduct safety, time and liability critical tasks, thus requiring secure, robust and trustworthy operations. In contrast, the rise in UAVs' demand, coupled with market pressure to reduce size, weight, power and cost (SwaP-C) parameters, has caused vendors to often ignore security aspects, thus inducing serious safety and security threats. As UAVs rely on Global Positioning System (GPS) for positioning and navigation, they can fall prey to GPS jamming and spoofing attacks. The vulnerability of GPS to spoofing has serious implications for UAVs, as victim drones using civil GPS can be misdirected or even completely hijacked for malicious intents, as already demonstrated in several academic research efforts using commercially available GPS spoofing hardware. Beside UAVs, GPS spoofing attacks are equally applicable to other GPS-dependent platforms, including manned aircraft, ground vehicles, and cellular systems. This paper conducts a comprehensive review of GPS spoofing threats, with a special focus on their applicability over UAVs and other GPS-dependent mobile platforms. It presents a novel taxonomy of GPS spoofing attacks and critically analyzes different spoofing techniques based upon placement of spoofing device, attack stealthiness, attack methodologies, and objectives of the attacker. We also discuss some of the recent experiments from open literature which utilized commercially available hardware for successfully conducting spoofing attacks.
ISSN:2376-5992
2376-5992
DOI:10.7717/PEERJ-CS.507