Space is a congested, contested, and competitive domain that remains a unique place for sensing, communications, and exploration. At Scientific Systems, we have a proud legacy of designing and delivering AI-enabled autonomy solutions for space systems and infrastructure. These technologies effectively shorten and enhance decision cycles on a multitude of missions, drastically improve operations efficiencies, and dramatically improve space system and space architectural resiliency.
Supremacy in the skies now requires new approaches to air vehicle autonomy and multi-vehicle coordination. For four decades, we’ve delivered pioneering innovations in autonomous air vehicle systems, with solutions for both manned and unmanned flight. From autonomous, real-time route planning for missile systems and aircraft, to AI-enabled onboard UAV decision making, we’re leading the vanguard of mission autonomy in the skies.
Across the world, the geographic scope and scale of potential conflict regions continue to expand. The battlespace may vary from remote and austere, to urban and unpredictable. Commanders need technologies to shorten the OODA loop, and make ground forces more efficient and collaborative. At Scientific Systems, we’re giving warfighters heightened domain awareness, more effective mission planning, and precision targeting capabilities.
Maintaining freedom of the seas requires the seamless integration of shipboard, airborne and undersea systems. At Scientific Systems, we’ve designed integrated autonomy architectures, software and mission development environments to power strategic and tactical maritime systems. From ISR and decision support to command and control of multi-vehicle, multi-user architectures, our AI-enabled autonomy technologies are revolutionizing U.S. Navy capabilities in theaters around the world.