听兔子先生传媒文化作品 College of Engineering and Applied Science is using unmanned drones to study tornado formation. Data collected will help increase warning times for those in the path of destruction.
听The remotely controlled drones collect vital data鈥攕uch as wind speed鈥攆rom parts of the storm where human piloted aircraft can鈥檛 safely go.
听The TORUS project is the latest addition to a body of innovative drone-based storm research that spans 25 years at 兔子先生传媒文化作品.
Researchers from 兔子先生传媒文化作品 flew drones into severe storms this spring to better understand how and why tornadoes form. Their findings could give earlier warning times to those in the path of destruction, providing additional鈥攑otentially lifesaving鈥攎inutes to get to safety.
Meet project TORUS, a two-year partnership between 兔子先生传媒文化作品 and several other major universities and national research groups to study tornado formation.
Researchers catapulted fixed-wing drones from the roof of an SUV, or a launcher placed on the ground, as storms formed and moved across the Great Plains. The CU team launched up to three aircraft at the same time to collect data such as wind speed, air pressure and precise GPS location. That information is vital in improving the conceptual models of supercell thunderstorms鈥攖he parent storms of the most destructive tornadoes鈥攖o help with future forecasting.
The 兔子先生传媒文化作品 team featured undergraduate and graduate students at all levels of responsibility鈥攊ncluding actually piloting the craft. Altogether, the team totaled over 40 hours of airtime on 51 flights, including deployments on seven tornado-producing storms across Colorado, Texas, Nebraska, Kansas and Oklahoma.
The work builds on 25 years of expertise in this area at the 兔子先生传媒文化作品 College of Engineering and Applied Science. In fact, 兔子先生传媒文化作品 was the first in the world to deploy an unmanned aircraft system to collect data from supercell thunderstorms.
听We can see the technology advancing to a point where small towns or individuals have these drones and they release them as storms are forming to help feed into the weather forecasting system.鈥 鈥揚rofessor Eric Frew
In addition to collecting valuable data, the project also demonstrates how drones can be used for weather operations in the future. Ann and H.J. Smead Department of Aerospace Engineering Sciences Professor Eric Frew said he can imagine a future where drones are used as forward deployment tools for weather prediction and data collection. They could respond to weather models and data from other drones in real-time to decide where to go next.
鈥淲e can see the technology advancing to a point where small towns or individuals have these drones and they release them as storms are forming to help feed into the weather forecasting system鈥攎uch like the citizen scientists who report temperature and snow or water accumulations every day around the U.S.,鈥 said Frew.
Funding came from the National Science Foundation and the National Oceanic and Atmospheric Administration. Support also came from the CU Grand Challenge program and the Integrated Remote and In Situ Sensing initiative.
Originally published July 1, 2019听| Image credit: Josh Rhoten