![]() When controlling a drone with a BCI, the human operator should state the desired command confidently but cautiously. Our project utilized an Emotiv Epoc+ 14-channel electroencephalogram (EEG) whole-brain sensing headset. This includes gathering data via multiple frequencies and channels from electrodes used to compute metrics for evaluating brain-wave activity. ![]() ![]() When we try to replicate the process computationally, the emphasis is on producing the same accurate outcomes. The human brain is a complex, constantly active organ that produces large amounts of data that we organically interpret with ease. The process that enables the connection of our thoughts directly to a drone is accomplished by recording and analyzing human brain-wave activity, identifying the patterns responsible for generating our cognitive ideas, and converting them into actionable data. Brain-computer interface (BCI) technologies are gaining popularity in the UAV sector because they are applicable in a wide variety of situations where remote control of the drone is achieved through mental commands. A critical application for UAVs is research-and-rescue missions in hard-to-reach and high-risk locations where the drone operator controls the mission from a safe and secure location. Drones are used commercially for a variety of tasks such as transporting goods, shooting footage for movies, and monitoring activity on the ground. ![]() The rapid technological evolution of urban air mobility has led to the exponential growth of unmanned aerial vehicles (UAVs), typically referred to as drones. ![]()
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