Award Data

The broader/commercial impact of this Small Business Innovation Research (SBIR) Phase I project is to increase safety and reduce weight and redundancies for many vehicular systems and electronic devices. This project will also enhance autonomous systems integration in terms of diagnostics and enable reconfiguration for a variety of safety-critical applications. The proposed self-healing, fault-tol ...

The broader/commercial impact of this Small Business Technology Transfer (STTR) Phase I project is to increase the volume and improve the accuracy of data on the world’s forests. Presently, when collecting data on forests, surveyors must choose between slow, laborious methods, or quick but inaccurate ones. This project uses recent advances in sensors and machine learning to greatly improve data ...

The broader/commercial impact of this Small Business Technology Transfer Phase I project is in improving both student learning and workforce readiness through interdependent learning experiences. The project will create project-based environments that promote skills such as communication, critical thinking, problem solving, time management, creativity, and teamwork – all mirroring professional w ...

The broader impact/commercial potential of this Small Business Technology Transfer (STTR) Phase I project is a significant improvement in the accuracy of weather forecasts by increasing the refresh rate of sea wind measurements ten-fold. This forecast improvement will increase the economic competitiveness of the United States by improving efficiency in maritime, agriculture, and logistics industri ...

The broader/commercial impact of this Small Business Technology Transfer (STTR) Phase I project is to revolutionize the miniature-powered Integrated Circuit (IC) converter market, widely used in cellular phones, Internet of Things devices, and microsensors. The technology will provide form factor reductions of various modules, leading to the further miniaturization of on-chip components. A manufac ...

The broader/commercial impact of this Small Business Technology Transfer (STTR) Phase I project advances precision manufacturing. The on-machine metrology system will have a transformative effect on highly efficient and precise optical manufacturing, additive manufacturing, and precision machining. These industries currently face a shared technical challenge: the lack of real-time quality control ...

The Missile Defense Agency is seeking innovative material and manufacturing processes for advanced metallic components for hypersonic flight systems. Triton Systems and their academic partner are proposing to develop the manufacturing and qualification evaluation techniques for reliable production of hypersonic environment appropriate metallic components at reduced cost and timelines compared to t ...

The Advanced Composite Structures group at Physical Sciences Inc. has partnered with the University of Virginia to develop a high temperature, ceramic syntactic foam that can be fabricated using additive manufacturing (AM) techniques. The AM ceramic insulator is compatible for co-processing with other CMC components such as aeroshells, fins, and additional hypersonic flight vehicle control surface ...

There is a need for a lightweight, high-performance, insulation to protect the internal systems in hypersonic vehicles. A passive thermal protection system (TPS) design would be simple and reliable. As designs evolve, there is a need for TPS insulation materials that can be additively manufactured. Our Phase I approach will additively manufacture pre-ceramic scaffolds that are used to create low d ...

The innovation proposed here is a novel carbon-carbon composite (CCC) manufacturing method based on polymer infusion and polymerization (PIP) using a novel precursor polymer with exceptionally high char yields. This results in a material that has the promise of excellent quality and mechanical properties, while offering the breakthrough advantages of (1) greatly reduced or eliminated need for back ...