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The Award database is continually updated throughout the year. As a result, data for FY23 is not expected to be complete until September, 2024.
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SBC: FREIGHT FARMS, INC. Topic: T604
NASA's goals to explore deep space through manned missions requires development of self-sustaining life support systems. A diverse team from Freight Farms, Inc. have partnered with Clemson University to merge knowledge of sustainable farming with engineering expertise to create off-grid infrastructure for self-sustaining plant life that will assist NASA with their goals. Freight Farms' current pro ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: AURORA FLIGHT SCIENCES CORPORATION Topic: T403
Fractionated spacecraft architectures to distribute mission performance from a single, monolithic satellite across large number of smaller spacecraft, for missions like close proximity inspection, sparse aperture arrays, robotic assembly, servicing, refueling, etc., can enable higher mission capability, reconfigurability and robustness. This distributed satellite architecture, with large numbers o ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: IOP Technologies LLC Topic: T603
NASA recognizes the importance of conservation, smart utilization and reuse of resources for their deep space missions to address the need for regeneration of air, water and waste with highly reliable systems to reduce mission payload. Additionally, energy for life support and other systems needs to be obtained from renewable energy sources or waste streams. In order to address NASA's requirements ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: Freedom Photonics LLC Topic: T802
The objective of this program is to develop, demonstrate and implement an integrated optical transmitter for RZ-DPSK modulation for integration into modems for the international space station (ISS). Conventional optical transmitters are based on commercially available discrete components. These have several fiber interconnects which leads to increased optical loss, reduced reliability in a space e ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: Garvey Spacecraft Corporation Topic: T101
The technical innovation proposed here is the introduction of torch-augmented spark ignition for high performance liquid oxygen (LOX) / propylene rocket engines now in development for a future two-stage nanosat launch vehicle. Spark ignition is critical for reliably achieving multiple in-flight restarts of NLV upper stage engines. In addition, this new capability will generate immediate R&D benef ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: PC Krause And Associates, Inc. Topic: T1501
PC Krause and Associates is partnering with Purdue University, EleQuant, and GridQuant to create a hybrid modeling capability. The combination of PCKA?s extensive dynamic modeling experience, Purdue?s work in electromechanical systems analysis, and GridQuant and Elequant?s development of the HELM algorithm uniquely positions the team to create this technology. HELM is a novel algorithm that solves ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: Angstrom Designs, Inc. Topic: T1301
Remote sensing, when combined with real-time processing, provides instant feedback on safety, mission success and system health. Being able to combine embedded sensing with distributed networks gives us the additional potential to further benefit many systems and sub-systems in the aerospace industry including launch vehicles, ground test equipment and spacecraft. These remote distributed sensor ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: SEACOAST SCIENCE, INC. Topic: T601
To provide additional telemetry and data for long-term mission, the composition of internal atmosphere of spacesuits must be determined. Specifically, the unambiguous detection and quantification of carbon dioxide is crucial for mission completion. Detection of other gasses (ammonia, oxygen) is also necessary for a complete sensor suite. Seacoast Science and Case Western Reserve University pro ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: Linked, Inc. Topic: T401
The objective of this proposed project is to provide a new set of sensitivity analysis theory and codes, the Sensitivity Analysis for Design Optimization Integrated Software Tool set, to work within the existing NASA O3 Tool. In this Phase I effort, the sensitivity approach will be implemented for two basic types of analysis, namely static systems of equations (linear and non-linear) and eigen-pro ...STTR Phase I 2016 National Aeronautics and Space Administration
SBC: Physical Sciences Inc. Topic: T101
Physical Sciences Inc. (PSI), in collaboration Purdue University, proposes to develop a novel launch propulsion technology for rapid insertion of nano/micro satellites (~ 5-50 kg scale) into low earth orbit, with the potential to lower the current state-of-the-art launch stage cost by a factor of two. The technology employs a propulsion scheme comprising a storable liquid oxidizer and a unique sol ...STTR Phase I 2016 National Aeronautics and Space Administration