In 2022, Randall Pietersen, a civil engineer within the U.S. Air Pressure, set out on a coaching mission to evaluate harm at an airfield runway, working towards “base restoration” protocol after a simulated assault. For hours, his staff walked over the world in chemical safety gear, radioing in geocoordinates as they documented harm and seemed for threats like unexploded munitions.
The work is commonplace for all Air Pressure engineers earlier than they deploy, but it surely held particular significance for Pietersen, who has spent the final 5 years creating quicker, safer approaches for assessing airfields as a grasp’s scholar and now a PhD candidate and MathWorks Fellow at MIT. For Pietersen, the time-intensive, painstaking, and doubtlessly harmful work underscored the potential for his analysis to allow distant airfield assessments.
“That have was actually eye-opening,” Pietersen says. “We’ve been instructed for nearly a decade {that a} new, drone-based system is within the works, however it’s nonetheless restricted by an lack of ability to establish unexploded ordnances; from the air, they appear an excessive amount of like rocks or particles. Even ultra-high-resolution cameras simply don’t carry out effectively sufficient. Fast and distant airfield evaluation isn’t the usual observe but. We’re nonetheless solely ready to do that on foot, and that’s the place my analysis is available in.”
Pietersen’s objective is to create drone-based automated programs for assessing airfield harm and detecting unexploded munitions. This has taken him down a lot of analysis paths, from deep studying to small uncrewed aerial programs to “hyperspectral” imaging, which captures passive electromagnetic radiation throughout a broad spectrum of wavelengths. Hyperspectral imaging is getting cheaper, quicker, and extra sturdy, which might make Pietersen’s analysis more and more helpful in a variety of functions together with agriculture, emergency response, mining, and constructing assessments.
Discovering pc science and neighborhood
Rising up in a suburb of Sacramento, California, Pietersen gravitated towards math and physics in class. However he was additionally a cross nation athlete and an Eagle Scout, and he needed a approach to put his pursuits collectively.
“I favored the multifaceted problem the Air Pressure Academy introduced,” Pietersen says. “My household doesn’t have a historical past of serving, however the recruiters talked concerning the holistic training, the place lecturers had been one half, however so was athletic health and management. That well-rounded strategy to the faculty expertise appealed to me.”
Pietersen majored in civil engineering as an undergrad on the Air Pressure Academy, the place he first started studying methods to conduct educational analysis. This required him to study a bit little bit of pc programming.
“In my senior 12 months, the Air Pressure analysis labs had some pavement-related initiatives that fell into my scope as a civil engineer,” Pietersen remembers. “Whereas my area information helped outline the preliminary issues, it was very clear that creating the appropriate options would require a deeper understanding of pc imaginative and prescient and distant sensing.”
The initiatives, which handled airfield pavement assessments and risk detection, additionally led Pietersen to start out utilizing hyperspectral imaging and machine studying, which he constructed on when he got here to MIT to pursue his grasp’s and PhD in 2020.
“MIT was a transparent selection for my analysis as a result of the college has such a powerful historical past of analysis partnerships and multidisciplinary considering that helps you clear up these unconventional issues,” Pietersen says. “There’s no higher place on this planet than MIT for cutting-edge work like this.”
By the point Pietersen acquired to MIT, he’d additionally embraced excessive sports activities like ultra-marathons, skydiving, and mountain climbing. A few of that stemmed from his participation in infantry expertise competitions as an undergrad. The multiday competitions are military-focused races through which groups from around the globe traverse mountains and carry out graded actions like tactical fight casualty care, orienteering, and marksmanship.
“The group I ran with in school was actually into that stuff, so it was kind of a pure consequence of relationship-building,” Pietersen says. “These occasions would run you round for 48 or 72 hours, typically with some sleep blended in, and also you get to compete along with your buddies and have time.”
Since coming to MIT together with his spouse and two youngsters, Pietersen has embraced the native operating neighborhood and even labored as an indoor skydiving teacher in New Hampshire, although he admits the East Coast winters have been powerful for him and his household to regulate to.
Pietersen went distant between 2022 to 2024, however he wasn’t doing his analysis from the consolation of a house workplace. The coaching that confirmed him the truth of airfield assessments befell in Florida, after which he was deployed to Saudi Arabia. He occurred to write down certainly one of his PhD journal publications from a tent within the desert.
Now again at MIT and nearing the completion of his doctorate this spring, Pietersen is grateful for all of the individuals who have supported him in all through his journey.
“It has been enjoyable exploring all types of various engineering disciplines, making an attempt to determine issues out with the assistance of all of the mentors at MIT and the assets out there to work on these actually area of interest issues,” Pietersen says.
Analysis with a goal
In the summertime of 2020, Pietersen did an internship with the HALO Belief, a humanitarian group working to clear landmines and different explosives from areas impacted by battle. The expertise demonstrated one other highly effective software for his work at MIT.
“We’ve post-conflict areas around the globe the place children are attempting to play and there are landmines and unexploded ordnances of their backyards,” Pietersen says. “Ukraine is an efficient instance of this within the information at present. There are at all times remnants of battle left behind. Proper now, folks have to enter these doubtlessly harmful areas and clear them, however new remote-sensing methods might velocity that course of up and make it far safer.”
Though Pietersen’s grasp’s work primarily revolved round assessing regular put on and tear of pavement buildings, his PhD has centered on methods to detect unexploded ordnances and extra extreme harm.
“If the runway is attacked, there could be bombs and craters throughout it,” Pietersen says. “This makes for a difficult surroundings to evaluate. Various kinds of sensors extract totally different sorts of data and every has its execs and cons. There’s nonetheless lots of work to be carried out on each the {hardware} and software program facet of issues, however to this point, hyperspectral knowledge seems to be a promising discriminator for deep studying object detectors.”
After commencement, Pietersen shall be stationed in Guam, the place Air Pressure engineers commonly carry out the identical airfield evaluation simulations he participated in in Florida. He hopes sometime quickly, these assessments shall be carried out not by people in protecting gear, however by drones.
“Proper now, we depend on seen traces of website,” Pietersen says. “If we will transfer to spectral imaging and deep-learning options, we will lastly conduct distant assessments that make everybody safer.”
