Award Data

This project aims to reduce the size and cost of current AEHF front-end by the integration of a compact beam-steering antenna array. The integration consists of novel antenna design, novel steering technique, and a scalable capable architecture.

Intelesense Technologies (rebranding as IoT/AI), in partnership with Southwest Research Institute (SwRI), proposes to demonstrate an Edge Learning System Orchestration and Management system. The system is distributed and hierarchical adaptation and learning system design through emulations and simulation based on IoT/AI’s work in distributed intelligence “edge as a service” systems that aggr ...

Robotic systems in general, and Unmanned Arial Vehicles (UAVs) in particular, pose a threat for both military and civilians when in the wrong hands. The triad of Kinetic, High-Power Microwave and Laser weapon systems currently used or considered for Counter-UAV (C-UAV) operation though effective in disrupting their performance, might be hazardous when used in a populated area. In this Phase I prog ...

Warfighters engaged in tactical operations are increasingly reliant on time-sensitive sensor information collected from Internet of Battlefield Things (IoBT) devices at the tactical edge to achieve mission goals. If the information flow is disrupted or the information is not processed correctly, then mission success can be severely impacted. A tactical edge network poses unique challenges for info ...

The US Army aims to integrate multi-modal sensor data streams and advanced AI analytics at the tactical network edge in support of its vision for a future Internet of Battlefield Things. To maintain situational awareness within mission-acceptable levels despite dynamic conditions and infrastructure disruptions, we propose the ConnextEdge framework for resource-aware location-agnostic adaptive AI p ...

High-average current and high-brightness electron beams are needed in advance applications such as ultra-high power Free-Electron Lasers (FELs) and electron accelerators. The technologically important material properties of diamond are of significant interest for development of electron emission, detector, and wide-bandgap semiconductor applications, including radiation-hard devices. A diamond amp ...

Dr. Thomas J.R. Hughes, senior advisor at Coreform, first introduced isogeometric analysis (IGA) in 2005. In the years since, it has been shown that smooth splines, the basic building blocks of IGA, allow for the use of relatively coarse meshes for accurate analysis in both finite element analysis (FEA) and computational fluid dynamics (CFD). Research results also show that IGA delivers improved a ...

Advances in DNA sequencing technology have generated a rapid expansion of human genome information and the revelation of extraordinary individual-level genetic variation. Individual genome sequencing will soon be routine and cost-effective. To exploit this resource to the benefit of warfighters, we propose an approach for identifying and characterizing genetic variants that compromise metabolic ef ...

Melanin-based biomaterials present novel solutions to radiation shielding/countermeasures, camouflage, and insulation, among others. A scalable and sustainable production process for natural melanins is needed to support the R&D and commercialization of melanin-based technologies. MelaTech proposes to develop a fermentation system that involves a novel, rapid melanin isolation process to yield gra ...

Cost effective and compact thermal energy storage systems that enable passive, non-powered, repeatable storage and release of heat could offer significant tactical and practical advantages for soldiers’ mission execution and success in a deployed setting of cold climates. Sorbent systems can store heat indefinitely, however, current sorbent-based technologies require storage tanks and complex co ...