Projects

We are developing scalable tools and techniques to accelerate the design and evaluation of reliable, mission-ready artificial intelligence systems.

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.

Our see-through-wall sensor is a lightweight, portable technology that peers through rubble and debris of a disaster site to detect survivors.

Our model optimizes the scheduling of aerial refueling missions, saving fuel and costs for the Department of War.

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.

A processor that automatically adjusts to computational needs is designed to minimize power consumption.

A technology that allows system developers to combine modules produced by trusted foundries and commercial manufacturers may deliver yield enhancements and power and performance benefits to mission-critical systems.

This initiative will deliver tailored educational content to trainees to expand their basic understanding of artificial intelligence (AI) and the applications to national security missions.

Engineered diamonds show promising capability for use in quantum sensing of magnetic fields.

New materials that are chemically inspired by nature could be tailored at the molecular level to dissipate vibrations in microsystems. Materials that can survive repeated external stresses could enable a next generation of enhanced microsystems.