A small unmanned aerial vehicle built by service academy cadets is shown here flying above ground. This type of small UAV was used by cadets and midshipmen from the U.S. Air Force Academy, the U.S. Military Academy and the U.S. Naval Academy, during a Defense Advanced Research Projects Agency-sponsored competition at Camp Roberts, California, April 23-25, 2017. During the competition, cadets and midshipmen controlled small UAVs in "swarm" formations to guard territory on the ground at Camp Roberts. (U.S. Air Force photo)
Drones have been used in conflicts across the globe and will play an even more important role in the future of warfare. But, the future of drones in combat will be different than what we have seen before.
The U.S. military can set itself apart from others by embracing autonomous drone warfare through swarming — attacking an enemy from multiple directions through dispersed and pulsing attacks. There is already work being done in this area: The U.S. military tested its own drone swarm in 2017, and the UK announced this week it would fund research into drone swarms that could potentially overwhelm enemy air defenses.
I propose we look to the amoeba, a single-celled organism, as a model for autonomous drones in swarm warfare. If we were to use the amoeba as this model, then we could mimic how the organism propels itself by changing the structure of its body with the purpose of swarming and destroying an enemy.
The Defense Advanced Research Projects Agency, often referred to as the mad science wing of the Pentagon, announced on May 9 that it plans on debuting its revolutionary Gremlin Unmanned Aerial System sometime in 2019. And much like the carrier classic military science fiction franchise StarCraft, defense contractor Dynetics designed the Gremlin to launch and recover from a flying mothership — in the case of the U.S. military, a Lockheed C-130 Hercules.