The recent havoc wreaked by tornadoes in Oklahoma shows again just how destructive and terrorizing these storms can be and how better predictive technology is needed. Oklahoma State University students working to solve this problem have developed the ultimate storm chaser -- a drone that can fly into the storms and send data back to meteorologists.
Jamey Jacob, a professor of mechanical and aerospace engineering at OSU, told us that the unmanned aerial vehicle (UAV) can penetrate severe thunderstorms, including the supercells from which tornadoes can develop. Once inside the storm, "the vehicles measure parameters pertinent to meteorologists, namely pressure, temperature, humidity, and wind speed, that can be useful for predicting storm development and formation."
Mechanical and aerospace engineering students at Oklahoma State University have developed a drone that can fly into severe thunderstorms like the ones that spawn tornadoes. (Source: Oklahoma State University)
Jacob's students developed the tornado-exploring UAV as part of a class project to tackle real-world design problems, but he actually began working on the technology as an undergraduate back in the 1980s. OSU student engineers have been working on UAV technology for more than a decade but only recently started work again on vehicle designs for weather prediction and exploration, he said.
The UAV was developed using a number of materials, including composites like carbon fiber, fiberglass, and Kevlar, to make it durable enough to withstand flights into supercells. It is not designed to fly directly into a tornado itself, but it measures the conditions from which a tornado will form.
These type of drones -- Jacob and his team are working on a number of concepts and prototypes -- could be used to improve predictions for tornadoes, giving people more warning and a better chance at protecting themselves. "The vehicles will gather data that can be used to improve numerical weather models and hence forecasting. Ideally, improvements in these models would allow warning to increase substantially over where it is currently."
Jacob and his team are working on a number of other UAVs, including Talos, a vehicle that was developed in collaboration with the Department of Homeland Security for a different application but could be adapted for storm forecasting. Its recently completed test flight is shown in the video below. He said he and his team are working with partners at other universities to secure development funding to continue their work, and they are seeking permission from the Federal Aviation Administration to fly their drones.
This is cool and timely but I don't see the need, based on the article. We know what types of storms produce tornadoes. It's seasonal and, for the most part, occurs in isolated areas (i.e. Tornado Alley).
Only the severity is unpredictable. How does a drone that measures elements that "can be useful for predicting storm development and formation" help with that?
What is the "different application" they are working on with the Department of Homeland Security?
This is definitely an exciting development - especially in light of the tragic deaths of that experienced team of storm chasers in the last round of Oklahoma twisters...
I am curious though - I don't really see a sensor array on the drone. What type of sensors are used and how is the data logging accomplished? I would imagine that going into such harsh weather conditions they would need some fairly rugged sensors and a way to accurately collect data that could withstand the environmental extremes the drone would be subject to...
Elizabeth, thanks for this news about drones being used for positive, beneficial and non-military uses. This is one of several ventures aiming to show that they have beneficent applications as well as not-so-beneficent ones.
This is certainly an interesting project but raises questions on how these drones will handle going into severe weather conditions. Of course, NASA has its Global Hawk program that flies in to study hurricanes and wildfires. Click here for blog post on the Global Hawk program.
Yes, even if it's not flying into the tornado itself, this is still dangerous business! Not sure about the lighting issue...maybe researchers have designed it with that in mind? I can't imagine they wouldn't take elements of the storm into consideration.
Tornados are still devastating storms and despite advanced weather equipment, people are still often caught unawares. This type of drone will be able to give meterologists advanced information of tornados before they form and hopefully aid them in prediction, giving people more advanced notice so they can get out of harm's way sooner. The one thing these drones don't do--which was reported erroneously in other publications--is actually fly into the tornado itself. As I explain in the story, they fly into the supercells from which these storms can form.
In today’s connected world we are seeing the beginning of connected homes, smart grids, self-driving automobiles, drones, and many other amazing devices. Out of all the soon-to-be connected devices, which device poses the greatest dangerous to its users and society?
There is a new cooperation between the Industrial Internet Consortium and Plattform Industrie 4.0 to explore the potential alignment of their two architecture efforts: the Reference Architecture Model for Industrie 4.0 (RAMI4.0) and the Industrial Internet Reference Architecture (IIRA).
The problem with a four-, five-, or six-year degree is that they don’t teach engineers the soft skills required to have a successful career. Here are seven skills that every engineering graduate needs to be successful.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.