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an illustration of several dozen translucent blue cubes, with highlighting lines connecting them, representing nodes.
cyber security

Foundational Security for Software

We are creating secure software foundations and applying them to operating systems used widely in mission-critical systems for the Department of War.
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A team of autonomous aerial vehicles learns to collaborate on a complex task by hypothesizing the team’s performance if an individual vehicle takes a risky action that leads to its destruction.
artificial intelligence

Exploiting Risk-taking in Group Operations

Teams of autonomous systems learn collaboration strategies by hypothesizing how the team would perform if one system followed alternative trajectories or was eliminated from the team.
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A large KC-135R tanker aircraft refuels an F-15 Eagle aircraft while they in mid air.
artificial intelligence

Aerial Refueling Optimization Engine

Our model optimizes the scheduling of aerial refueling missions, saving fuel and costs for the Department of War.
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This is one use case for embedded AI technology--tactical radios.
information, computation, & exploitation

Embedded Artificial Intelligence Technology

An artificial intelligence (AI) test environment can help researchers evaluate promising embedded AI technologies and their impact on systems developed for Department of War missions.
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an illustration of an infinity symbol with label of "ARMS: Applied Resilience for Mission Systems"
cyber security

Applied Resilience for Mission Systems

We’re improving and guiding the resilience of Department of War missions by adapting commercial practices and academic research for the development, operation, and sustainment of software-intensive systems.
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the letters "CEP"
cyber security

Common Evaluation Platform

Developers can test cybersecurity solutions for government systems by using an integrated circuit modeled on Department of War designs.
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