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Award Data
The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.
Download all SBIR.gov award data either with award abstracts (290MB)
or without award abstracts (65MB).
A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.
The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.
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Artificial Intelligence (AI) based algorithms for predictive maintenance using NOAA data-sets for renewable energy assets
SBC: 60Hertz Incorporated Topic: 92This research aims to develop decision support tools for better maintenance and planning of renewable energy generation and storage assets using atmospheric, local weather, and on-ground environmental data blended with site-, regional- and national-generation data. The study will use a combination of these data to understand the relationship between non-cloud cover based atmospheric conditions and ...
SBIR Phase II 2023 Department of CommerceNational Oceanic and Atmospheric Administration -
Artificial Intelligence (AI) based algorithms for predictive maintenance using NOAA data-sets for renewable energy assets
SBC: 60Hertz Incorporated Topic: 92We propose to use Aerosol Optical Depth (AOD) measurements as an early warning system, to cue on-site validation of the soiling station and any available meteorological (MET) station data to validate if a work order to clean deposited particulate matter is necessary. This would move from reactive maintenance – often weeks delayed, to proactive maintenance – getting ahead of the weather impact ...
SBIR Phase I 2022 Department of CommerceNational Oceanic and Atmospheric Administration -
High Temperature Additively Manufactured ROM for Venus Surface Operation
SBC: OZARK INTEGRATED CIRCUITS INC Topic: S13NASA has demonstrated a resolve to land instruments on the corrosive, high-pressure (~100 bar), high-temperature (470deg;C) surface of Venus. NASA Glenn Research Centerrsquo;s JFET-R technology is the only one that has shown 1000rsquo;s of hours operation under Venus surface conditions. NASA desires computational analyses on the surface of Venus. Ozark IC is currently working on a NASA Phase II to ...
SBIR Phase I 2022 National Aeronautics and Space Administration -
Efficient Neuromorphic Processor Design for Autonomous Space Operation
SBC: NANOMATRONIX LLC Topic: H6It has been widely received that the recent success of artificial intelligence (AI) is built on three cornerstones: the advance of algorithms, the acquisition of big data, and the availability of high computing power. To further improve the data processing capability and efficiency, researchers, in general, explore from three orthogonal and complementary aspects: algorithm simplification and compr ...
SBIR Phase II 2021 National Aeronautics and Space Administration -
Reduced Graphene Oxide EDS Electrodes from Wet Coating Process
SBC: WATTGLASS, INC Topic: Z13The proposed graphene-based electrode materials for electrodynamic dust screens provides a unique approach to deposit both the conductive material and a high dielectric constant insulator in a single wet coating method. The laser reduction of graphene oxide will provide electrodes with improved electrical conductivity over current state of the art, while the non-reduced graphene oxide composite wi ...
SBIR Phase I 2021 National Aeronautics and Space Administration -
Augmented Intelligence & Cognitive Support Ecosystem (AICSE)
SBC: STEM RESOURCES LLC Topic: T11Scientificnbsp;discoverynbsp;todaynbsp;dependsnbsp;asnbsp;nevernbsp;beforenbsp;uponnbsp;easenbsp;ofnbsp;accessnbsp;tonbsp;data,nbsp;associatednbsp;sophisticatednbsp;toolsnbsp;andnbsp;applications,nbsp;tonbsp;enablenbsp;research, education.nbsp;Researchersnbsp;whonbsp;oncenbsp;worked in local, isolated laboratories now collaborate routinely and on a globalnbsp;scale.nbsp;Specializednbsp;instruments ...
STTR Phase I 2021 National Aeronautics and Space Administration -
Extreme Environment System Integration Techniques for Venus In-Situ Processing
SBC: OZARK INTEGRATED CIRCUITS INC Topic: S4Based on the successful results of the Phase I project, Ozark IC will develop a prototype multi-chip package for high-temperature, high-density electronic systems. Ozark IC will create a 500°C RISC-V multi-chip system in package as a vehicle to illustrate the design procedures, the multi-chip package and the high-temperature components that go into creating a high-temperature electronic system.nb ...
SBIR Phase II 2020 National Aeronautics and Space Administration -
Efficient Neuromorphic Processor Design for Autonomous Space Operation
SBC: NANOMATRONIX LLC Topic: H6According to the NASA SBIR topic H6.22 description entitled ldquo;Deep Neural Net and Neuromorphic Processors for In-Space Autonomy and Cognition,rdquo; this subtopic ldquo;specifically focuses on advances in signal and data processing. Neuromorphic processing will enable NASA to meet growing demands for applying artificial intelligence and machine learning algorithms on-board a spacecraft to opti ...
SBIR Phase I 2020 National Aeronautics and Space Administration -
High Fidelity Analog Integration Techniques for Venus Surface Data Acquisition
SBC: OZARK INTEGRATED CIRCUITS INC Topic: S4NASA has demonstrated a resolve to land instruments on the corrosive, high-pressure (~100 bar), high-temperature (470deg;C) surface of Venus. NASA Glenn Research Centerrsquo;s JFET-R technology is the only one that has shown 1000rsquo;s of hours operation under Venus surface conditions. Due to the extreme environment found on the surface of Venus, access to reliable passive components such as resi ...
SBIR Phase I 2020 National Aeronautics and Space Administration -
Engineered Peptoid Sensor for Microbial Monitoring in Spacecraft Cabins
SBC: CATALYZEH2O, LLC Topic: H3Currently, there is a need for sensing technology that can reliably detect microbial growth at its initial stages for air, surfaces, and potable water, well before substantial microbial growth, contamination, and microbial-induced corrosion can occur.nbsp; The current approach used to determine microbial growth is through analytical microbiology, which relies on sampling from tanks and analysis of ...
SBIR Phase I 2020 National Aeronautics and Space Administration