University researchers in Texas say they are designing a new type of drone – one that could be controlled simply and only with a soldier’s mind.

If successful, the project would allow soldiers to command future drones in ways beyond simple navigational commands. While troops would be able to order a drone to “move left” and “move right,” it would potentially enable them to command the vehicles to travel over specific geographic installations and send critical data back to their operators.

According to My San Antonio, the project is currently underway at the University of Texas at San Antonio, where graduate students recently demonstrated a hovering drone operated via a cell phone app while one researcher sat – his head covered in sensors – and focused intently on the unnamed aerial vehicles’ activity.

While the goal of controlling vehicles by way of the mind is still ways off, the hope is that by studying the brain signals and magnetic waves captured from graduate student Mauricio Merino, the researchers will be able link the activity to specific commands that can eventually be received by an advanced drone.

.@JLloydster on @UTSA drone research http://t.co/arCIsR187L I can't remember if I tweeted this. I need researchers 2 fix my terrible memory. — michelle mondo (@mmondo) September 3, 2014

These commands would be relayed by sophisticated electroencephalogram systems (EEG) that can process brain signals.

Once developed, mind-controlled drones would significantly reduce the amount of supplies that troops have to carry into combat zones, the chairman of the university’s electrical and computer engineering department, Daniel Pack, believes.

“It becomes more burdensome to ask them to carry more things,” he told My San Antonio. “You have to have a computer or a mechanism that you use to control the UAVs. But if you can do this without having them actually carry additional equipment ... then you are helping our soldiers.”

While the project is primarily funded by the Department of Defense and the Office of the Secretary of Defense, the researchers also think the technology will have important uses for those with disabilities.

“For people who don’t have motor skills, for people in wheelchairs, this could be so helpful,” graduate Prasanna Kolar said to the outlet.

Already, scientists at other universities are hard at work on similar technology. At the University of Minnesota, EEG systems were used last year to control a flying robot. They specifically mentioned the ability to control wheelchairs and artificial limbs as practical applications for the breakthrough, and speculated that even more helpful uses could be on the horizon.

“It may even help patients with conditions like autism or Alzheimer’s disease or help stroke victims recover,” engineering student Karl LaFleur said in a press release at the time. “We're now studying some stroke patients to see if it'll help rewire brain circuits to bypass damaged areas."