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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.

  1. A Charge Prediction Tool for HSU-based Suspension Systems

    SBC: Impact Technologies            Topic: N06T001

    Impact Technologies, with its partners; Georgia Institute of Technology and General Dynamics Amphibious Systems (GDAMS), propose to develop a Hydro-pneumatic Suspension Unit (HSU) Maintenance Support tool in support of initial production deployment of the Expeditionary Fighting Vehicle (EFV). Building upon demonstrated Phase I STTR program accomplishments, the project team intends to both signifi ...

    STTR Phase II 2008 Department of DefenseNavy
  2. A Continuous Flow Liquid Cell Holder for the Transmission Electron Microscope

    SBC: HUMMINGBIRD PRECISION MACHINE CO.            Topic: A08T029

    Electron microscopy of specimen in liquid has recently been demonstrated by Niels de Jong at Oak Ridge National Laboratory (ORNL). A sample was enclosed in a liquid compartment with electron transparent windows and imaged using a scanning transmission electron microscope (STEM). Expanding on this expertise it is proposed to develop the technology of a liquid holder for both TEM and STEM that prov ...

    STTR Phase I 2008 Department of DefenseArmy
  3. Acoustically/Vibrationally Enhanced High Frequency Electromagnetic Detector for Buried Landmines

    SBC: White River Technologies Inc            Topic: A16AT004

    White River Technologies, Inc. (WRT) presents this proposal, "Acoustically/Vibrationally Enhanced High Frequency Electromagnetic Detector for Buried Landmines".The primary goal of the proposed effort is to develop a prototype vibrationally-enhanced detection system capable of landmine and IED detection and discrimination with performance greater than conventional GPR sensors.The main sensing compo ...

    STTR Phase II 2017 Department of DefenseArmy
  4. Acoustic Mitigation System For Horizontal, Planar Surfaces Onboard Naval Ships

    SBC: NEVA ASSOC.            Topic: N08T014

    Typical acoustic materials rely on embedded continuous mass layer to attenuate low frequency sound. Energy from low frequency sound is not effectively mitigated with these materials unless a substantial amount of mass is added. Thus, standard materials for low frequency noise control tend to be heavy, expensive and difficult to install. A new technology is being developed that utilizes optimized ...

    STTR Phase I 2008 Department of DefenseNavy
  5. Active Control of Scramjet Isolator Shocks (ACSIS)

    SBC: Innoveering, LLC            Topic: AF15AT19

    ABSTRACT: Active control of the shock system in a scramjet engine isolator opens possibilities for enhanced engine performance and reduced engine weight by eliminating excess isolator design margin. A successful system will allow for maximum performance from a given engine configuration and will deliver range and efficiency that exceeds those possible using passive unstart control. Our approach is ...

    STTR Phase I 2015 Department of DefenseAir Force
  6. Adaptive Hierarchical Multiple Models to Control Dynamic Systems

    SBC: SCIENTIFIC SYSTEMS CO INC            Topic: AF07T012

    Modern control theory offers mathematically rigorous and powerful solutions to many dynamic systems. Its limitations are that the classes of dynamic systems covered by the theory are limited to linear systems or certain well-structured nonlinear systems, and the adaptation of the controllers are often slow if the controller parameters are far away from their desired values. On the other hand, the ...

    STTR Phase I 2008 Department of DefenseAir Force
  7. Adaptive Management and Mitigation of Uncertainty in Fusion (AMMUF)

    SBC: CHARLES RIVER ANALYTICS, INC.            Topic: MDA13T001

    In our Adaptive Management and Mitigation of Uncertainty in Fusion (AMMUF) project, we will model the entire multi-sensor fusion process as a probabilistic model and reason about the different design and algorithmic decisions that can be made by system engineers. This fusion model will use standard fusion system representations and ideas from statistical relational learning field to create flexibl ...

    STTR Phase II 2015 Department of DefenseMissile Defense Agency
  8. Additive Manufactured Smart Structures with Discrete Embedded Sensors

    SBC: TRITON SYSTEMS, INC.            Topic: A17AT024

    The purpose of this proposal is to additively manufacture (AM) smart structures with embedded electronics such as sensors, accelerometers, antennas, etc. The goal of these smart structures will be to enhance the effectiveness and survivability of the Armys ground systems. The use of additive manufacturing smart structures provides flexibility in the materials used and the functionality of the elec ...

    STTR Phase I 2017 Department of DefenseArmy
  9. Advanced Chemistry and Radiation Modules for Hypersonic Signatures

    SBC: SPECTRAL SCIENCES INC            Topic: MDA15T003

    Karagozian & Case, Inc. (K&C) and the Georgia Institute of Technology (Georgia Tech) will develop a re-usable, cost-effective, and accurate dynamic characterization methodology capable of measuring the dynamic material properties of various materials of interest under very high strain rates. Materials property data for various ductile materials (e.g., steel and aluminum) are required as input to f ...

    STTR Phase I 2017 Department of DefenseMissile Defense Agency
  10. Advanced Radar Data Fusion- Multiple Input Multiple Output Sensor Acquisition (MIMOSA) System

    SBC: ANDRO COMPUTATIONAL SOLUTIONS LLC            Topic: MDA06T003

    Radar targets provide a rich scattering environment that produces from 5-25 dB target fluctuations. The spatial dependence of target scattering means that targets produce essentially independent scattering returns when radiated from sufficiently different directions. Thus, if receivers are distributed over a wide enough area, which is the premise of the multiple input multiple output (MIMO) radar ...

    STTR Phase II 2008 Department of DefenseMissile Defense Agency
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