Award Data

The experimental validation of the DoDs weapon systems is at the cornerstone of national security considerations. The structural requirements for the targets utilized impose a severe cost and lead time burden due to the limitations imposed by the traditional manufacturing processes currently used. Novel manufacturing methods for metal alloys have been established in the past years, but they have y ...

CU Aerospace (CUA) and team partners San Jose St. University (SJSU) and Lockheed Martin Space Systems Company (LMSSC) propose to develop a robust epoxy resin regenerator capable of improving cryocooler efficiency by more than 30%, and to design an enhanced compressor motor capable of improving the cryocooler efficiency by more than 20%. LMSSC manufactures a space cryocooler that already meets most ...

The transmission loss (TL) observed by sonar operators can differ significantly from that predicted by Navy models. The long-term objective of the proposed work is to understand why these differences occur and improve the target detection predictive capability of the models. Our approach in Phase I is to analyze bistatic sonar data collected on Navy assets. We will examine both cases with model/da ...

Data generated by external sources needs to be consolidated and processed to derive new training scenarios and to recommend new training objectives and measures of performance. The main technical challenges this solution will address are: data from diverse sources must be pre-processed (i.e., validated, cleaned, synchronized) and loaded into a data warehouse; the central data warehouse must have a ...

The objective of this proposed effort is to develop a highly autonomous hull-grooming system that can be operated easily and cost-effectively with minimal supervision. This system will meet the rigorous standards of current manned-grooming operations using a rotating brush tool and will ensure complete coverage of the groomed area by providing on-hull positioning accuracy of 0.15m. We will develop ...

For this Phase 1 Small Business Technology Transfer (STTR) project, Blackmore Sensors and Analytics and university partner Montana State University will investigate the use of coherent frequency modulated continuous wave (FMCW) ladar/lidar and digital holography techniques for improved performance of active imaging through fog. Coherent range, Doppler, and polarization selective digital holography ...

Tool materials development has been the major limit for the application of friction stir technologies/welding (FSW) on hard alloys such as steels and titanium alloys over the past decade. During friction stir welding on steels, temperatures can exceed 1000°C, so the tool material needs to be strong enough to sustain wearing and deformation at elevated temperatures for long times. There are two ma ...

This SBIR Phase I project proposes to develop a novel cancer targeting technology, Active Tissue Targeting via Anchored ClicK Chemistry (ATTACK), for targeted treatment of triple negative breast cancer (TNBC). TNBC is a subtype of breast cancer that occurs in 10-20% of diagnosed breast cancers and is more likely to affect younger people, African Americans, Hispanics, and those with BRCA1 gene muta ...

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase I project is that it will save billions of dollars by anticipating construction delays and streamlining coordination to prevent them. Lower costs will help upgrade our nation's infrastructure, which is a critical national priority. Many construction companies strongly want a solution to indoor progress ...

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) project is to establish faster, less expensive, more accurate ways of determining the contents of biological samples leading to novel medical diagnostics, new drugs, and other new products beyond the reach of the current scientific methods that employ mass spectrometry. The project will develop technology tha ...