Award Data

This Sequential Phase II effort will demonstrate the micro-loop oscillating heat pipe heat spreader technology (m-Loop-OHP-HS) for solid state power amplifiers in a real-world spacecraft structure to advance its technology readiness level for near-term insertion into programs of record. Additionally, the m-Loop-OHP-HS technology will be prototyped in novel materials and form factors to create mult ...

Modern DoD applications are benefiting from the proliferation of EO/IR sensor technology. As imagers become cheaper and smaller, they are being more widely deployed for a variety of scenarios. This trend is exemplified by the Navys Future Targeting System (FTS), which will provide laser designation, laser spot imaging, and some target location functions in a single 5.5-pound unit, replacing discre ...

As organizations grow in size and complexity, it is only natural that inefficiencies exist. One of the challenges faced by organizations is the information needed to identify, characterize, and resolve these inefficiencies is located in different stovepipes and may be biased based on a variety of factors. Both crowdsourcing and human computation research and design thinking practices have develope ...

Electrical systems are being designed with ever increasing power densities, particularly future radar and electronic warfare systems built with Gallium Nitride on Silicon Carbide Monolithic Integrated Circuits (GaN MMICs). Today’s GaN MMICs use solid metal, low-coefficient of thermal expansion heat spreaders (e.g., Copper-Tungsten). But solid-state heat spreaders cannot meet the size, weight, po ...

As a cloud-like architecture is adopted by mission critical System of Systems (SoS), the problem of system management is critically important to solve in order to ensure continuity of operations. System operators and maintainers need a way to manage system resources and restore a system to health when subsystems in the SoS are sharing these resources. A technology to determine and present Courses ...

In the Phases I and II of this SBIR project, a software product was developed, delivered and deployed at the Hill AFB CT facility for highly resolving computed tomography of aerospace components.The project was focused upon speed of execution using high-performance computer architectures.In this commercialization readiness program, the technology will be advanced to at least TRL 6 by the following ...

A need exists for a power-and-energy dense, lightweight modular Integrated Fuel Cell System, IFCS, able to operate with available aviation fuels. The proposed Phase I effort initiates the development of an IFCS based on Infinitys current generation modular fuel cells integrated with advanced state-of-the art reformer technology. The goal of this effort is to develop the conceptual design, analysis ...

Precision Combustion, Inc. (PCI) has developed a breakthrough technology enabling a new logistics-fueled, high efficiency all-electric power and propulsion (PnP) system with potential to improve mission range and logistics for Navy’s UAS platforms and others. Based upon a high energy density fuel cell power system that can operate on logistics fuels, the technology offers multiple advances for U ...

The Navy is seeking solutions that enable warfighters to share tribal knowledge as efficiently as possible. Sonalysts solution, the Peer-to-Peer Information and Education Resource (PIER), will increase warfighter effectiveness by providing sailors with the opportunity to learn from each other via a simple app-like authoring tool. PIER will allow the Navy to increase the distribution of tacit knowl ...

To address the needs of Navy to successfully produce 7000 series aluminum alloy components, Sentient proposes to develop a hybrid additive manufacturing (AM) process for this topic. Hybrid AM use a secondary process (e.g. peening, burnishing) along with primary AM process to tightly control thermal profile and stress evolution locally and globally, resulting enhanced part quality (e.g. negligible ...