Sabrina Mansur

Director

Massachusetts Artificial Intelligence (AI) Hub

As director of Massachusetts Artificial Intelligence (AI) Hub, Sabrina Mansur leads the statewide effort to develop and implement a responsible, cutting-edge AI ecosystem in Massachusetts. Mansur is responsible for implementing the recommendations and vision for AI in Massachusetts that were laid out in the December report issued by Governor Maura Healey's 2024 Artificial Intelligence Strategic Task Force.

Mansur has built her career at the intersection of advanced technology and real-world application, bringing over 20 years of leadership experience in the development and commercialization of AI and robotics in both the public and private sectors.  

Mansur previously held senior roles at Draper Laboratory, Motional, Torc Robotics, and Lockheed Martin.  

As head of corporate strategy at Draper Laboratory, Mansur spearheaded enterprise-wide investment and technology roadmap development across the bio, energy, defense, space, and transportation industries. Sabrina played a key role in developing and commercializing a wide range of AI-enabled sensing, navigation and robotics technologies, including robotic perception and localization systems, LIDAR and MEMS gyroscope products. She also served as the chief program manager for Draper’s contributions to NASA’s Artemis program. Earlier in her career, at Lockheed Martin, she worked on advanced radar programs and complex systems engineering initiatives for national defense applications.  

At Motional, she led the strategic roadmap for commercial driverless electric vehicles and the early technical program execution of machine learning-based driverless development. Most recently, she led strategic planning for Torc Robotics, an AI-based autonomous freight delivery company.    

Sabrina has a Master of Science in Systems Engineering from the University of Pennsylvania and holds multiple U.S. patents related to AI and autonomy technologies, including innovations in sensor fusion, probabilistic classification and autonomous navigation.