Skip to main content

Researchers teach drones to avoid crashes before it’s too late

A University of Houston engineer has developed a new onboard safety system that could help drones avoid crashes before they happen, even when unexpected events knock them off course.

The technology, designed specifically for quadrotor drones, acts as an autonomous “safety supervisor.” Instead of replacing the drone’s pilot or flight software, it continuously monitors the aircraft during flight and steps in only when it detects that the drone is about to enter a dangerous situation.

The idea is straightforward. A drone may be following its planned flight path perfectly, but an unexpected gust of wind, a sudden disturbance, or another external force can quickly push it toward an obstacle or unsafe area. The new system is designed to recognize that risk in real time and automatically make corrections before a crash occurs.

The research was led by Marzia Cescon, David C. Zimmerman Assistant Professor of Mechanical and Aerospace Engineering at the University of Houston’s Cullen College of Engineering, and was published in the American Society of Mechanical Engineers Digital Collection.

Advertisement - scroll for more content

Cescon describes the technology as an “invisible fence” surrounding the drone.

“You can think of it as an invisible fence that defines where the drone can safely be,” she explains. “Whenever the ‘safety supervisor’ predicts that the drone will get dangerously close to the fence and potentially crash onto it, the algorithm we designed pushes it away from it.”

Under the hood, the system relies on a mathematical framework known as a Control Barrier Function (CBF). The software continuously monitors the drone’s tilt and position, predicts whether it’s approaching an unsafe condition, and temporarily takes control if necessary to keep the aircraft within safe operating limits.

According to Cescon, the work bridges an important gap between theoretical safety research and practical drone operations. Rather than existing only in simulations, the safety supervisor was developed and tested on real hardware at the university’s Advanced Learning, Artificial Intelligence and Control laboratory.

As drones take on increasingly complex jobs — from inspecting critical infrastructure to operating in crowded or confined environments — systems like this could provide an extra layer of protection without interfering with normal flight. By intervening only when needed, the technology aims to make autonomous and pilot-assisted drone operations more reliable while reducing the risk of accidents caused by unpredictable conditions.

More: AVSS sets production record amid rising global drone demand

FTC: We use income earning auto affiliate links. More.

You’re reading DroneDJ — experts who break news about DJI and the wider drone ecosystem, day after day. Be sure to check out our homepage for all the latest news, and follow DroneDJ on Twitter, Facebook, and LinkedIn to stay in the loop. Don’t know where to start? Check out our exclusive stories, reviews, how-tos, and subscribe to our YouTube channel.

Comments

Author

Avatar for Ishveena Singh Ishveena Singh

Ishveena Singh is a versatile journalist and writer with a passion for drones and location technologies. She has been named as one of the 50 Rising Stars of the geospatial industry for the year 2021 by Geospatial World magazine.