After 20 minutes, one of the aircraft, carrying a computer that processed images from an onboard camera, zeroed in on the tarp and contacted the second plane, which flew nearby and used its own sensors to examine the colorful object. Then one of the aircraft signaled to an unmanned car on the ground so it could take a final, close-up look.
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. Imagine aerial “Terminators,” minus beefcake and time travel.
The Fort Benning tarp “is a rather simple target, but think of it as a surrogate,” said Charles E. Pippin, a scientist at the Georgia Tech Research Institute, which developed the software to run the demonstration. “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.”
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. Once a match was made, a drone could launch a missile to kill the target.
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. Researchers are uncertain how soon machines capable of collaborating and adapting intelligently in battlefield conditions will come online. It could take one or two decades, or longer. The U.S. military is funding numerous research projects on autonomy to develop machines that will perform some dull or dangerous tasks and to maintain its advantage over potential adversaries who are also working on such systems.
The killing of terrorism suspects and insurgents by armed drones, controlled by pilots sitting in bases thousands of miles away in the western United States, has prompted criticism that the technology makes war too antiseptic. Questions also have been raised about the legality of drone strikes when employed in places such as Pakistan, Yemen and Somalia, which are not at war with the United States. This debate will only intensify as technological advances enable what experts call lethal autonomy.
The prospect of machines able to perceive, reason and act in unscripted environments presents a challenge to the current understanding of international humanitarian law. The Geneva Conventions require belligerents to use discrimination and proportionality, standards that would demand that machines distinguish among enemy combatants, surrendering troops and civilians.