Dhanasekar Boopalan scite author profile

Dhanasekar Boopalan

2Publications

18Citation Statements Received

10Citation Statements Given

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Affiliations

Technical University of Darmstadt

Publications

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HoneyDrone: A medium-interaction unmanned aerial vehicle honeypot

Daubert

Boopalan

Mühlhäuser

et al. 2018

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Over the last years, we have experienced an increased utilization of Unmanned Aerial Vehicles (UAVs) not only in personal, but also commercial and public safety applications. Simultaneously, malicious activities have emerged too; from hijacking of UAVs (and their cargo), to the theft of private information stored in UAVs, attacks not only exist but seem to increase both in their numbers and their sophistication. In this paper, we propose HoneyDrone, the first honeypot that is specifically designed for the protection of UAVs. HoneyDrone emulates a number of UAV-specific and UAV-tailored protocols, making it possible to lure adversaries into attacking it. The honeypot is designed to run in portable low-cost devices, e.g., Raspberry Pis, which makes it possible to strategically deploy it in a variety of locations. Our system can assist in detecting active attackers in a certain area, as well as in shedding light into the adversaries' techniques for compromising UAVs. We evaluate HoneyDrone's performance and also examine a number of different realistic attack scenarios to show how the honeypot can cope with them.

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Don't steal my drone: Catching attackers with an unmanned aerial vehicle honeypot

Vasilomanolakis

Daubert

Boopalan

et al. 2018

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The increased utilization of Unmanned Aerial Vehicles (UAVs) in both personal as well as commercial and public safety scenarios has also opened the door to adversaries. In more details, such malicious activities may include the hijacking of the UAV (and its cargo), the theft of private information stored in the device, etc. In this paper, we introduce the idea of a honeypot that is specifically designed for the protection of UAVs. The honeypot, which is also capable of running on small portable devices, e.g., a Raspberry Pi, emulates a number of UAV-specific and UAV-tailored protocols, making it possible to lure adversaries into attacking it. Our system can assist into detecting active attackers in a certain area as well as into shedding light into the adversaries' techniques for compromising UAVs.

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