Securing a UAV Using Individual Characteristics From an EEG Signal
This addresses UAV security for military and commercial applications, but it is incremental as it applies existing biometric concepts to a new domain.
The paper tackles securing UAV communication against cyber attacks by developing a biometric encryption system using EEG signals, validated on a commercial UAV to enable safe return during attacks.
Unmanned aerial vehicles (UAVs) have gained much attention in recent years for both commercial and military applications. The progress in this field has gained much popularity and the research has encompassed various fields of scientific domain. Cyber securing a UAV communication has been one of the active research field since the attack on Predator UAV video stream hijacking in 2009. Since UAVs rely heavily on on-board autopilot to function, it is important to develop an autopilot system that is robust to possible cyber attacks. In this work, we present a biometric system to encrypt the UAV communication by generating a key which is derived from Beta component of the EEG signal of a user. We have developed a safety mechanism that would be activated in case the communication of the UAV from the ground control station gets attacked. This system has been validated on a commercial UAV under malicious attack conditions during which we implement a procedure where the UAV return safely to a "home" position.