It could take one or two decades, or longer. Researchers are uncertain how soon machines capable of collaborating and adapting intelligently in battlefield conditions will come online. Military systems with some degree of autonomy - such as robotic, weaponized sentries - have been deployed in the demilitarized zone between South and North Korea and other potential battle areas. Once a match was made, a drone could launch a missile to kill the target. The demonstration laid the groundwork for scientific advances that would allow drones to search for a human target and then make an identification based on facial-recognition or other software. GTRI: Unmanned and Autonomous Systems team The CUSTD system's unmanned aerial vehicles can carry up to seven pounds-worth of scientific instruments, including chemical and infrared sensors, cameras, and signal- and data-processing tools. GTRI Demonstrates How Autonomous Vehicles Work Together "You can imagine real-time scenarios where you have 10 of these things up in the air and something is happening on the ground and you don't have time for a human to say, 'I need you to do these tasks.' It needs to happen faster than that." Pippin, a scientist at the Georgia Tech Research Institute, which developed the software to run the demonstration. The Fort Benning tarp "is a rather simple target, but think of it as a surrogate," said Charles E. Imagine aerial "Terminators," minus beefcake and time travel. This successful exercise in autonomous robotics could presage the future of the American way of war: a day when drones hunt, identify and kill the enemy based on calculations made by software, not decisions made by humans.
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