Basic Atomics Aeronautical Techniques, Inc. (GA-ASI) was awarded a $94,808,020 cost-plus-fixed-fee contract for analysis, growth, check, and analysis of Autonomy and Synthetic Intelligence (AI) for the Good Sensor Intelligence, Surveillance, and Reconnaissance (ISR) prototype. The work was awarded by the Military Contracting Command on April 30, 2024, with an estimated completion date of March 31, 2026.
The Good Sensor System is being developed by the Chief Digital AI Workplace (CDAO) with a purpose of making a platform-agnostic AI and autonomy system that permits autonomous surveillance and reconnaissance operations in contested environments, in addition to with the ability to talk with different platforms.
“GA-ASI has invested in and deployed autonomy capabilities for a number of years as a part of our plane mission programs,” stated Darren Moe, senior director for Automation, Autonomy and AI growth for GA-ASI. “Being chosen to carry out this work in opposition to a pool of just about 1,000 bidders is a superb achievement and alternative for our firm to use its AI and autonomy expertise to this vital growth program.”
GA-ASI is a world chief in Unmanned Plane System (UAS). Final 12 months the corporate supported a 90-day deployment for the U.S. Indo-Pacific Command (INDOPACOM) the place Good Sensor was efficiently demonstrated in a Maritime Operational Setting.
About GA-ASI
Basic Atomics Aeronautical Techniques, Inc. (GA-ASI), an affiliate of Basic Atomics, is a number one designer and producer of confirmed, dependable RPA programs, radars, and electro-optic and associated mission programs, together with the Predator® RPA collection and the Lynx® Multi-mode Radar. With greater than eight million flight hours, GA-ASI gives long-endurance, mission-capable plane with built-in sensor and knowledge hyperlink programs required to ship persistent situational consciousness. The corporate additionally produces quite a lot of sensor management/picture evaluation software program, gives pilot coaching and assist providers, and develops meta-material antennas.