Designing for Space and Other Extreme Environments
The Next Generation of Mission-Critical Communications Infrastructure is Here
Designing Transportable, High-Performance AI Systems for the Rugged Edge
Digitalization in the Aerospace Sector
From Product Design to Manufacturing & Operations
3D Printing Metal Parts on a Ship
What Does the Navy Require to Make the Dream a Reality?
Pushing the Boundaries of RF Passive Hardware with Additive Manufacturing
What is Pulse Shaping?
Unmanned Aircraft Systems to Support Environmental Applications within USACE Civil Works
The U.S. Army Corps of Engineers (USACE) has identified a number of research and development (R&D) opportunities to help reduce disaster risks, including cost-efficient technology, such as un-manned aircraft system (UAS) technology for accurate, detailed, and timely two-dimensional and three-dimensional monitoring of coastal and riverine landscapes.
Dynamically Managing Task Allocation Between Humans and Machines in Surveillance Operations
Constructing an Autonomous Manager (AM) for use as an integral component of distributing multiple tasks between humans and autonomous agents, particularly in Intelligence, Surveillance, and Reconnaissance (ISR) applications.
Modeling Space-Based Intelligence, Surveillance, and Reconnaissance (ISR) in Combat Simulations
An analysis of the development of methodologies for representing the performance of commercial, national, and military space and low-earth-orbit assets and their impact on joint operations with a test implementation within the Framework for Capability-based Tactical Analysis Libraries and Simulations (FRACTALS).
Environmental Applications of Small Unmanned Aircraft Systems in Multi-Service Tactics, Techniques, and Procedures for Chemical, Biological, Radiological, and Nuclear Reconnaissance and Surveillance
Integrating chemical sensors into small, unmanned aircraft systems can expand their capabilities and make them suitable for a variety of intelligence, surveillance, and reconnaissance operations.