While scouring large swaths of land for prey, predators like hawks and eagles will often take advantage of rising thermals to stay airborne and glide for extended periods with minimal effort. Humans have copied this approach which allows sailplanes to fly without a motor, but
Microsoft is now teaching an AI how to pilot an autonomous plane
powered by this natural phenomenon.
Grade school science experiments taught us all that hot air rises, and that’s essentially what a thermal is. As the sun warms the ground, it in turn heats the air at lower altitudes, causing it to rise. A bird or aircraft flying through a thermal-which can also be described as a column of vertically moving air-will experience additional lift. Birds and skilled glider pilots become adept at knowing where to find thermals, but teaching an autopilot to find them isn’t as easy.
A plane that can fly without a motor would be a breakthrough that could benefit everything from farming to cheap cellphone service, so Microsoft researchers designed and built a model sailplane with a 16.5-foot wingspan they call the infinite soaring machine-a monicker the craft will hopefully eventually grow into.
The sailplane itself features run-of-the-mill RC technology, but what makes it interesting is the artificial intelligence the researchers are developing to pilot it. Using data from sensors that monitor air temperature, wind direction, altitude, and other metrics (in addition to speed and location data from GPS), the AI pilot can detect when the sailplane is suddenly gaining altitude, indicating it has located a rising thermal.
Using a combination of low-level planning, which allows the craft to start circling and gaining altitude once a thermal is found, and high-level planning, which allows the system to predict where to find the next thermal, the AI slowly learns how to stay airborne without the use of a motor.
The craft can’t fly forever just yet. It’s still dependent on an electric motor to get off the ground in the first place. And the servos that move the sailplane’s flaps and ailerons so that it can steer towards and stay within a thermal are all powered by an onboard battery. But eventually solar cells on a larger gilding aircraft’s massive wings could provide all the power it needs, as could wind-powered generators incorporated into its fuselage.
Without the need for re-stocked in-flight meals, AI-piloted gilders could stay in the air forever, serving as permanent eyes in the sky for scientists studying everything from crop growth to storms. They could even serve as flying cell towers, connecting to each other to create an airborne data or cellular network that could be up and running in a matter of hours after a disaster. It might even one day lead to commercial airliners that minimize fuel costs, passing the savings onto customers-as long as you don’t mind spending countless extra hours in the air while the plane zig-zags the country looking for thermals.