Award Data

"In response to Small Business Innovative Research solicitation BMDO02-016, 21CSI is pleased to propose the development of a proof-of-concept sensor intranet and decision aid software application that ties disparate and legacy sensors into a net. Ourconcept, Sensor-AEDGE, will be built from the bottom up to support the netting of sensors into a cohesive, complementary unit. It will employ intell ...

"On this Phase I program, Advanced Ceramics Research Inc. (ACR) will develop and commercialize technology to fabricate structural components with increased thermal capacities at relatively low cost. This effort will have two major focus areas: (1) work onour Fibrous Monolith (FM) composite processing to develop a new generation of low-cost damage tolerant ceramic-matrix composites with improved p ...

"In this phase I SBIR program, a team consisting of Advanced Ceramics Research, Inc. (ACR) and the University of Delaware (UD) propose the development of an innovative process for novel, high temperature non-eroding nozzle designs with an in-situ insulationlayer. This novel design concept will be fabricated using a patented technology at UD. The ceramic material will be structurally sound and toug ...

"The high accuracies required by hit-to-kill interception places severe demands on interceptor maneuverability and flight control time response when engaging targets that are maneuvering either intentionally or unintentionally. A well-known guidance law foruse against a maneuvering target is augmented proportional navigation (APN). It has been recently demonstrated that the limitations of APN can ...

"Advanced Ceramics Research, Inc. (ACR) proposes to design and develop novel micro-filament composite structures for fabrication of improved thermal shock and damage tolerant small diameter propulsion components. These parts are typically wound uniaxially,which allows only one plane of crack deflection using conventional FM filament. ACR will conduct a study to evaluate the material properties o ...

"In this Phase I SBIR program, a team consisting of Advanced Ceramics Research Inc. (ACR) and the University of Arizona (UA) propose to develop a novel, low-cost, integrated micro-channeled heat exchanger system for high power electronic applications suchas that for space, high-speed missiles, and other weapon systems. The increased power density for these applications result in demanding conditi ...

"The lifetime of many space systems critical to missile defense is limited by the availability of on-board expendable resources, such as cryogenic fluids and fuels. As these systems become more complex and expensive, the ability to extend the capacity ofon-board cryogenics becomes a key driver of total life cycle cost and effectiveness. AeroAstro will develop an end-to-end architecture for fluid ...

"Space vehicles designed to resupply systems such as SBIRS Low and Space-Based Laser, as well as maneuverable targets and interceptors, require an affordable, low system-impact sensor for attitude determination, especially when a high degree of navigationis required for high delta-v maneuvers. Today's star trackers are too massive, expensive, and power hungry to appropriately serve small maneuver ...

"For missions deploying maneuverable vehicles for Boost-Phase and Space-Based Intercept, as well as refueling and resupply for SBIRS Low and Space-Based Laser, MDA requires a compact, highly versatile avionics core with a design that can be reused at verylow cost for a variety of missions. Leveraging previous work, AeroAstro and the University of Alabama Huntsville propose to develop a flexible, ...

"This Small Business Innovation Research Phase I project develops tunable dispersion compensators by planar glass waveguide technology. The buried ion-exchanged waveguides we propose to use enable the fabrication of low-loss waveguides with very lowbirefringence. The process is extremely simple and reproducible, which will facilitate the low-cost production of devices. The proposed design will ...