Artificial Intelligence - Research

Artificial intelligence (AI), sometimes called machine intelligence, is intelligence demonstrated by machines, in contrast to the natural intelligence displayed by humans and other animals. In computer science, AI research is defined as the study of "intelligent agents": any device that perceives its environment and takes actions that maximize its chance of successfully achieving its goals. Colloquially, the term "artificial intelligence" is applied when a machine mimics "cognitive" functions that humans associate with other human minds, such as "learning" and "problem-solving".


The scope of AI is disputed: as machines become increasingly capable, tasks considered as requiring "intelligence" are often removed from the definition, a phenomenon known as the AI effect, leading to the quip, "AI is whatever hasn't been done yet." For instance, optical character recognition is frequently excluded from "artificial intelligence", has become a routine technology. Capabilities generally classified as AI as of 2017 include successfully understanding human speech, competing at the highest level in strategic game systems, autonomous cars, intelligent routing in content delivery network and military simulations.


As technology is ever evolving, Pegasus Aerospace is currently heavily invested in the research of Artificial Intelligence and Advanced Neural Networks.

Our brains are made up of a hundred billion nerve cells called neurons. When neurons interact through a chemical reaction, they naturally emit a measurable, electrical impulse. Electroencephalography or EEG is the process of observing brainwaves through these pulses. Pegasus Advanced Neural Transceiver Interface measures the pilot’s brainwaves and translates it into meaningful data to help him/her make the most of their cognitive performance.


Pegasus Advanced Neural Transceiver Interface can understand and decipher basic mental commands. It can detect commands such as push, pull, levitate, rotate and even commands that are harder to visualize such as disappear. It also detects facial expressions such as blinks, winks, frown, surprise, clench, and smile.


These commands, when channeled through a filter and pushed through the flight control system can and will enable the pilot to fly the aircraft with his/her mind, by simply thinking: climb, dive, bank, roll, turn on/off switches, etc. By simply thinking the command one can reduce the reaction time to a fraction of a second.


Normally, we first think what we want to do, then the brain translates that into a series of motion commands, to the actual limb. All this takes time, reaction time to be exact, which especially when flying a Jet-Wing can be very helpful if this is reduced as much as possible.


In addition, Pegasus Advanced Neural Transceiver Interface can also measure, track and help improve one’s Attention, Focus, Engagement, Interest, Excitement, Affinity, Relaxation and reduce Stress levels.























This is one of the projects currently being researched at Pegasus Aerospace, and thus far showing very promising results...

Advanced Neural Transciever Interface

Pegasus Aerospace | Aerospace Engineering | Unmanned Systems | Drones


Tel: (850) 376-0991

Destin, FL, USA

DUNS # 095353607
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