George Mason University engineering professor awarded Office of Naval Research grant to launch 'NEXT' mechatronics workforce program

George Mason University faculty member Ningshi Yao received a $750k grant from the Office of Naval Research (ONR) to establish a hands-on mechatronics training program aimed at building the next generation of high-tech engineering technologists.

The three-year funding will support the creation of the Natural EXTension (NEXT) program. As emerging technologies like autonomous systems, artificial intelligence, and advanced manufacturing continue to expand, the NEXT program will serve the national interest by providing students with rigorous, experiential learning opportunities directly aligned with defense and industry workforce needs.

"Traditional classroom learning is essential, but engineering is ultimately about building systems that work reliably in the real world," said Yao, an assistant professor in the Department of Electrical and Computer Engineering, director of the Control, Intelligent Autonomy, and Optimization Lab, and the sole principal investigator on the project. "With the NEXT program, we are implementing a 'flipped classroom' model. Students will review video lectures and technical instructions as their homework, allowing us to dedicate our entire class time to building and testing the mechatronic vehicles. This highly dynamic 'learning-by-doing' approach prepares students for the complex problem-solving required in today's high-tech workforce."

The program, which will welcome its pilot class in fall 2026, moves beyond standard laboratory exercises. A centerpiece of the NEXT curriculum is a high-stakes endurance mechatronics competition. Student teams will be challenged to design, build, and deploy autonomous mechatronic vehicles during a 72-hour rapid prototyping sprint, followed by a live, 90-minute competitive match on an outdoor field.

This intense environment forces participants to manage limited resources, modify hardware, program the systems on the fly, and ensure their systems can handle unpredictable real-world elements like uneven terrain and weather.

"We want to push students' engineering creativity and strategic thinking to the absolute limit," said Yao. "By bridging the gap between academic theory and rigorous physical deployment, we are ensuring our graduates are job-ready for defense and tech industry roles from day one."

George Mason is already known as one of the commonwealth's largest producers of tech talent. The NEXT program will further support the university's efforts in building Virginia's high-tech workforce by creating a regional talent pipeline.

"Relationships between universities and industry are common, but integrating direct, hands-on challenges that mirror the complexities of defense operations makes this initiative unique," Yao added.

This project is sponsored by the Office of Naval Research under award number N00014-26-1-2153.