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Four mechanical engineering students from South ��ֱ���� State University found a way to make drones more useful for farmers and won a prestigious NASA contest in the process. 

The first-place SDSU team was one of eight finalists in NASA’s Gateways to Blue Skies contest, which this year had a theme of AgAir: Aviation Solutions for Agriculture. Teams were instructed to conceptualize novel aviation systems that can be applied to agriculture by 2035 or sooner with the goal of improving production, efficiency, environmental impact and extreme weather/climate resilience. 

The State seniors did just that with their STaPLE drone. That stands for Soil Testing and Plant Leaf Extraction. 

The product name tells its mission. Using GPS technology and artificial-intelligence image analysis software, the drone would fly to determined areas within a field to either take a soil sample or clip off plant leaves for future analysis. The soil sampling module would be used in spring or fall when plants weren’t growing. The extraction module would be used during the growing seasons. 

The students estimated a cost of $5,000 to $10,000 per module with payback in less than one year. 

Last presentation, first-place finisher 

Their presentation impressed NASA and aviation industry judges on Wednesday, May 21, when SDSU was the final team to make its 45-minute presentation at NASA’s Armstrong Flight Research Center in Palmdale, California, May 20-21. 

Going before them were prestigious engineering schools such as Embry-Riddle Aeronautical University, University of California, Davis, and Auburn University. 

This is the fourth year for the contest, but it is the first year that SDSU has entered. 

Todd Letcher, the project adviser and an associate professor in mechanical engineering, said, “This is the other half of NASA. Everyone thinks of NASA as space flight, but NASA also looks at the everything that flies and looks down back at the earth.” He said he likes this contest because the themes change widely each year, and an ag theme was well suited for SDSU. 

The SDSU team is comprised of Nathan Kuehl of Avoca, Minnesota; Laura Peterson, of Fredericksburg, Virginia; Keegan Visher of Excelsior, Minnesota, and Nick Wolles, of Dell Rapids. 

Customer research impresses judges 

Kuehl and Wolles both come from farm families. But to develop a project idea, the team expanded their outreach and that impressed the judges. 

Letcher said, “Our team leveraged their experience in another one of our programs (the National Science Foundation’s I-Corps in the Great Plains Hub) to learn about their customer base and to design a product that the customers want, not what we think they want. 

“The judges loved that they did I-Corps and talked with 25 potential customers (in the fall) and made sure to call it out at the awards ceremony as one of the reasons they chose us as winners.” 

He said judges also were impressed that SDSU’s project “was very practical and something that could be implemented very soon with existing technology and agronomy knowledge.” 

To the victor goes … 

Being the winner brings a plaque, a lot of prestige, $8,000 to cover travel costs to the finals, and the option for NASA internships for the students. 

SDSU has had recent success in other NASA contests, but this is the first time that SDSU has been the overall winner at a NASA contest. 

Steven Holz, assistant project manager for University Innovation with NASA’s Aeronautics Research Mission Directorate and Blue Skies judge and co-chair, announced the results at a Wednesday night dinner. Letcher said, “It was very exciting. I think the team was so shocked they just blanked out. It was pretty darn cool for me.” 

Heading into the contest, Letcher said, “I think the team will do great in the finals. They’ve worked hard to develop a concept that is both practical and cutting edge, making it great for the competition. But more importantly, it really helps farmers increase the data available for better decisions, so it will be commercially successful, too.” 

Letcher’s prediction proved true. 

SDSU also home to precision ag 

The team members’ hard work was aided by their environment. They’re students at South ��ֱ���� State University, which, Wolles pointed out during the May 21 presentation, was the first university in the nation to have a precision agriculture major and provides ample resources for their work. Also, SDSU’s Jerome J. Lohr College of Engineering has been working with drones for some time.
In fact, the startup company AeroFly is the product of a previous NASA contest for college students. 

The modules that the students prototyped are slated to fly on an AeroFly drone. Letcher explained, “We received our first drone funding from NASA in 2020. That funding led to our startup company AeroFly, which has secured NASA Small Business Innovation Research Phase 1 funding (2024), and just last week we found out we received Phase 2 funding for the next two years. Now, we can add winning the Blue Skies competition this week. 

“It’s a great example of how the federal government supports basic research at the university level and that turns into products that can be used in the field in a relatively short amount of time,” Letcher said. 

Could be available as soon as ’27 

In the students’ presentation, they projected having the soil sampling module commercially available in 2027 and the plant tissue sampling commercially available in 2029. For the current year, they proposed to continue with prototype development, including AI-vision training so the module can recognize what leaves it is supposed to target. 

Whether that actually happens is to be determined. All four students received diplomas May 10 and are heading to jobs in industry. 

Letcher said, “Until yesterday, I don’t know if the team truly believed they had something this complete and ready for the next step. I will encourage them to continue working on this on nights and weekends. I plan to run it through the invention disclosure process through SDSU to see if there is interest in patenting either module.” 

Kuehl, who is headed to a job as a control systems specialist with Climate Systems in Sioux Falls, said, “The whole competition was super rewarding. It was very cool to see how far we’ve come. We’re so thankful for NASA Blue Skies to fly us out here and that we could compete with all these other major schools.” 

‘Y’all’s prototypes are so cool’ 

On Wednesday afternoon, all contestants were given a tour of Armstrong Flight Center. “It was eye opening to see what NASA is doing on earth.” 

While Gateways to Blue Skies was a yearlong capstone project for the seniors, actual construction of the prototype began at the end of February and was completed in time for SDSU’s Engineering Expo April 22. 

Blue Skies finalists were not required to build a prototype and, in fact, SDSU was the only team to do so. While that wasn’t built into the judging matrix, the large-scale prototype in the hallway didn’t go unnoticed. During questions following the SDSU presentation, one judge remarked, “Y’all’s prototypes are so cool.” 

The next NASA opportunity for the SDSU mechanical engineering department will be the RASC-AL (Revolutionary Aerospace Systems Concepts – Academic Linkage) contest June 2-4 in Cocoa Beach, Florida, where SDSU has two finalists in the small lunar servicing and maintenance robot division.