Sep 27, 2016
New Approaches for UUV Autonomy
Dr. Ramprasad Balasubramanian is the principal investigator on a $612,250 grant-funded project to implement autonomy in unmanned underwater vehicles (UUVs). Balasubramanian will lead a team that will explore new approaches to providing autonomy for the BIOSwimmerTM—a tuna-shaped UUV developed for the Department of Homeland Security (DHS) Science & Technology Directorate (S&T) by Boston Engineering, which is headquartered in Waltham.
Other collaborators include Northeastern University and Charles River Analytics. The Boston Engineering division working on this technology is located at UMassD’s Center for Innovation & Entrepreneurship.
Balasubramanian explained that autonomy is the ability of a vehicle to operate in an unknown environment with little or no operator intervention. An autonomous underwater vehicle (AUV) is one that “acts by itself,” operating without the need for a remote operator. The vehicle must also be mission-oriented.
The goal of this project to take a UUV—i.e., the BIOSwimmer—and make it into an advanced AUV.
Mimicking the flexibility and maneuverability of a real-life tuna, the BIOSwimmer can carry out missions in harsh and dangerous underwater environments that include: ensuring safe harbors, providing ship and underwater infrastructure inspection, and conducting environmental monitoring.
The project received funding through the state’s Seaport Economic Council—part of $2.6 million in competitive grants aimed at growing the “blue” maritime economy and supporting technological innovation and education opportunities.
Advancing Marine Robotics
The team’s work will advance the capabilities of marine robotics and AUVs on key missions while providing real-world educational and research opportunities for College of Engineering students as they work on next-generation technology, both hardware and software.
“We’re also serving the Commonwealth as we develop a highly-skilled workforce prepared to work in today’s maritime economy,” said Balasubramanian. The program will provide new, cutting-edge research infrastructure, including two undersea robots—one for UMass Dartmouth and one for Northeastern. “The approach we’re taking is that of the ‘back-seat driver paradigm,’ to allow the robot to integrate its mission parameters with sensor data to complete its task, while operating in an unknown environment,” he said.
Balasubramanian said that Dr. Taskin Padir of Northeastern University will explore an alternative autonomous implementation.
This announcement originally appeared on the UMass Dartmouth College of Engineering News site.