NSF Graduate Research Fellow engineering solutions to big data challenges
For the past six years, first as an undergraduate and now as a doctoral student, Logan Mathesen has used industrial engineering to find solutions to big data problems. His hard work and dedication are paying off, as Mathesen was recently selected as a National Science Foundation Graduate Research Fellow.
Mathesen arrived at Arizona State University with the intention of earning bachelor’s and master’s degrees in industrial engineering through ASU’s 4+1 program. However, his strong work ethic and genuine interest in the field prompted his professors to encourage him to apply for the doctoral program directly from the undergraduate program.
“I actually had no clue what industrial engineering was until about five years ago,” Mathesen said. “But the more you learn about industrial engineering, engineering processes and flow factories or service systems, the more you start to see it everywhere in the world.”
His interest in the field could not have come at a more opportune time. In the age of big data when information is being captured at nearly every turn — from online shopping behaviors to the data collected from robots on a factory floor — Mathesen is working to build the algorithms, data analysis and modeling techniques that will help manage these large data sets and aid in decision-making.
“I want to influence how the next generation interacts with data and information,” the Tucson native said.
As a participant in the NSF Graduate Research Fellowship Program, Mathesen is one step closer to fulfilling that dream. Graduate Research Fellowship Program scholars earn an annual stipend and a cost-of-education allowance to support their graduate education. Mathesen is one of 2,000 students accepted out of 12,000 applicants nationwide, and one of just three industrial engineers selected during this year’s award cycle.
Mathesen believes his past research contributed to why he was chosen for the NSF fellowship program. While a student in ASU's Barrett, The Honors College, he designed pivoting regression analysis techniques to help quantify and understand the relationships of various city and social systems in dense urban areas.
During the first year of his doctoral program, he developed algorithms for black-box stochastic optimization and descriptive statistical modeling techniques over irregular response surfaces to support real-time decision making when exhaustive decision analysis is not feasible.
“It’s cool to have a formal language for understanding and modeling what happens in our random world, and then being able to take that model and enable smart, data-driven, objective decision-making,” Mathesen said of his research.
While acknowledging his research was a deciding factor in attaining the fellowship, Mathesen also noted, “NSF does an amazing job of taking a holistic view of GRFP applicants.”
Matheson grew up in a home where neither of his parents had college degrees, but they worked tirelessly to support him and his brothers in all their pursuits. He said being recognized by his professional peers through the fellowship validates not only the hard work he has put forth academically, but also the support his family has provided over the years.
The young data scientist is growing in his current leadership role as president of ASU’s INFORMS student chapter, his new status as an NSF scholar and, in general, as a representative of ASU and the Ira A. Fulton Schools of Engineering.
“I chose ASU because I knew that I had a support network here. I knew that I enjoyed the people and that there are people who genuinely care about my well-being both as a student and a person,” Mathesen said.
“Plus”, he added, “I feel that ASU’s engineering program has some of the best young faculty in the country, and there is really a sense of community.”