The MLOps team poses with GTRI Chief Technology Officer Mark Whorton (far left) and GTRI Director Jim Hudgens (second from left) after winning an IRAD of the Year award for their work on this project at GTRI's FY23 IRAD Extravaganza event.

GTRI Develops Machine Learning Operations Platform to Streamline Data Management for the DoD

01.03.2024

Machine learning (ML) has transformed the digital landscape with its unprecedented ability to automate complex tasks and improve decision-making processes. However, many organizations, including the U.S. Department of Defense (DoD), still rely on time-consuming methods for developing and testing machine learning models, which can create strategic vulnerabilities in today’s fast-changing environment. 

The Georgia Tech Research Institute (GTRI) is addressing this challenge by developing a Machine Learning Operations (MLOps) platform that standardizes the development and testing of artificial intelligence (AI) and ML models to enhance the speed and efficiency with which these models are utilized during real-time decision-making situations.   

“It’s been difficult for organizations to transition these models from a research environment and turn them into fully-functional products that can be used in real-time,” said Austin Ruth, a GTRI research engineer who is leading this project. “Our goal is to bring AI/ML to the tactical edge where it could be used during active threat situations to heighten the survivability of our warfighters.” 

Image removed.
GTRI has developed a dashboard that aids in the DoD's development and testing of AI and ML models that would be utilized during real-time decision-making situations. Pictured from L to R are the two project leads, GTRI Research Engineer Austin Ruth and GTRI Senior Research Engineer Jovan Munroe (Photo Credit: Sean McNeil, GTRI).

 

Rather than treating ML development in isolation, GTRI’s MLOps platform would bridge the gap between data scientists and field operations so that organizations can oversee the entire lifecycle of ML projects from development to deployment at the tactical edge. 

The tactical edge refers to the immediate operational space where decisions are made and actions take place. Bringing AI and ML capabilities closer to the point of action would enhance the speed, efficiency and effectiveness of decision-making processes and contribute to more agile and adaptive responses to threats. 

“We want to develop a system where fighter jets or warships don’t have to do any data transfers but could train and label the data right where they are and have the AI/ML models improve in real-time as they’re actively going up against threats,” said Ruth.   

For example, a model could monitor a plane’s altitude and speed, immediately spot potential wing drag issues and alert the pilot about it. In an electronic warfare (EW) situation when facing enemy aircraft or missiles, the models could process vast amounts of incoming data to more quickly identify threats and recommend effective countermeasures in real time. 

AI/ML models need to be trained and tested to ensure their effectiveness in adapting to new, unseen data. However, without having a standardized process in place, training and testing is done in a fragmented manner, which poses several risks, such as overfitting, where the model performs well on the training data but fails to generalize unseen data and makes inaccurate predictions or decisions in real-world situations, security vulnerabilities where bad actors exploit weaknesses in the models, and a general lack of robustness and inefficient resource utilization. 

“Throughout this project, we noticed that training and testing are often done in a piecemeal fashion and thus aren’t repeatable,” said Jovan Munroe, a GTRI senior research engineer who is also leading this project. “Our MLOps platform makes the training and testing process more consistent and well-defined so that these models are better equipped to identify and address unknown variables in the battle space.” 

This project has been supported by GTRI’s Independent Research and Development (IRAD) Program, winning an IRAD of the Year award in fiscal year 2023. In fiscal year 2024, the project received funding from a U.S. government sponsor. 

Image removed.
The MLOps team poses with GTRI Chief Technology Officer Mark Whorton (far left) and GTRI Director Jim Hudgens (second from left) after winning an IRAD of the Year award for their work on this project at GTRI's FY23 IRAD Extravaganza event (Photo Credit: Sean McNeil, GTRI).

 

Writer: Anna Akins 
Photos: Sean McNeil 
GTRI Communications
Georgia Tech Research Institute
Atlanta, Georgia

MORE GTRI NEWS STORIES

GTRI 2023 ANNUAL REPORT

The Georgia Tech Research Institute (GTRI) is the nonprofit, applied research division of the Georgia Institute of Technology (Georgia Tech). Founded in 1934 as the Engineering Experiment Station, GTRI has grown to more than 2,900 employees, supporting eight laboratories in over 20 locations around the country and performing more than $940 million of problem-solving research annually for government and industry. GTRI's renowned researchers combine science, engineering, economics, policy, and technical expertise to solve complex problems for the U.S. federal government, state, and industry.

 

Newsletter

Sign up for monthly updates on GTRI’s research, activity, and more.

Related News

| News stories
A new National Science Foundation award to Georgia Tech will help researchers learn much more about mysterious cloud top discharges (CTDs), which reach as high as 70 kilometers (about 43 miles) above thunderstorms.
| News stories
Dr. Craig Arndt, Principal Research Engineer in ELSYS and Division Chief of the Human Centered Engineering Branch, was recently awarded the “Expert Systems Engineering Professional” certification by the International Council on Systems Engineering (INCOSE). This is one of systems engineering’s most respected and rare honors.
| News stories
Long-term image sequences of materials exposed to space conditions could help the designers of future spacecraft know what to expect from a new generation of advanced materials.