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Award Data

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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. Self-Healing Non-Catalytic Multifunctional Composite Structure

    SBC: TEXAS HIGH ENERGY MATERIALS, LLC            Topic: N10AT007

    Areas of research relating to self-healing composites structures have been undertaken by well-known and respected research institutions under the auspices of the Department of Defense. Patent literature and public technical communique describe their novel engineering approaches using polymeric healing agents through suitable mechanisms. While these approaches have merit, the choices of materials u ...

    STTR Phase II 2013 Department of DefenseNavy
  2. Safe High Voltage Cathode Materials for Pulsed Power Applications

    SBC: SCIENTIC INC            Topic: N11AT035

    A high-voltage, high-capacity, inexpensive cathode material for lithium-ion batteries (LIBs) is proposed. The cathode material employs carbon nanotubes and additional nanostructures to support efficient transport of Li ions. The resulting LIBs will support high transient and pulsed loads while offering enhanced safety and lifecycle performance. Proof-of-concept LIB cells were demonstrated in Phase ...

    STTR Phase II 2013 Department of DefenseNavy
  3. eXtreme wrist computer (Xwatch)

    SBC: Coherent Logix, Incorporated            Topic: AF103026

    The eXtreme wrist computer (Xwatch) Program leverages significant previous and on-going investment in processor, RF, rapid product development, integration and miniaturization efforts by Coherent Logix, Incorporated. The proposed Xwatch program has been structured to work closely with industry to create the military version of an iPhone, but with ubiquitous communication, position, navigation, and ...

    SBIR Phase II 2013 Department of DefenseNavy
  4. Mitigation of Blast Injuries through Modeling and Simulation

    SBC: PROTECTION ENGINEERING CONSULTANTS LLC            Topic: N101001

    Protection Engineering Consultants (PEC) will use the results of the Phase I numerical analyses of armored tactical vehicles subjected to landmine detonation to further explore, develop, and validate state-of-the-art numerical modeling and simulation (M&S) tools and techniques. In Phase I, PEC identified the key technical issues, which include the high loading rate behavior of materials and bolted ...

    SBIR Phase II 2013 Department of DefenseNavy
  5. Detection and Tracking of Moving Targets near the LandSea Boundary

    SBC: RDRTEC INCORPORATED            Topic: N121004

    This effort develops system concepts, a suite of algorithms and software for detection and tracking of moving surface targets (small boats, periscopes, and land vehicles) and dismounts that extends across the open water, surf zone, and beach. This suite of algorithms and software will perform accurate long-term tracking of detected targets with high probability of detection and minimal false alarm ...

    SBIR Phase II 2013 Department of DefenseNavy
  6. Automatic Dependent Surveillance-Broadcast (ADS-B) Anti-Spoofing and Merging With Non-Cooperative Sense and Avoid (SAA) Sensors

    SBC: RDRTEC INCORPORATED            Topic: N121089

    The implementation of Sense And Avoid (SAA) capabilities on Unmanned Aircraft Systems (UAS) present a particular challenge in that collision threats can be either cooperative or non-cooperative. Cooperative aircraft are here defined as being equipped with ADS-B that broadcasts that aircraft"s position and velocity vectors. Non-Cooperative targets must be addressed with radar sensors that detect, a ...

    SBIR Phase II 2013 Department of DefenseNavy
  7. Anytime Summarization for Remote Robot Operations

    SBC: Traclabs Inc.            Topic: T103

    NASA plans to use intelligent planetary rovers to improve the productivity and safety of human explorers. A key challenge in using robots for human exploration is orienting remote personnel about robot operations, as latency and communication constraints make eyes-on monitoring impractical. Summary measures are needed to identify what progress the robot has made and, when progress is impeded, to i ...

    STTR Phase II 2013 National Aeronautics and Space Administration
  8. Canfield Joint- Vibration Isolation System for High Precision Pointing

    SBC: BALCONES TECHNOLOGIES LLC            Topic: T301

    During our Phase I STTR effort, Balcones Technologies, LLC (BT) and The University of Texas at Austin Center for Electromechanics (CEM) successfully achieved all Phase I objectives and developed concept designs for controlled Canfield Joint Systems (CJS) for numerous applications that currently employ two-axis gimbal systems, including flywheel energy storage systems, integrated flywheel energy st ...

    STTR Phase II 2013 National Aeronautics and Space Administration
  9. A Planning and Control Toolkit for Dual Arm Manipulation

    SBC: Traclabs Inc.            Topic: X702

    It is often difficult to create autonomous robotic capabilities that match what can be achieved via teleoperation. Even though it is mechanically possible for a humanoid robot such as Robonaut 2 to perform complex coordinated tasks such as tying a knot, exchanging objects between end effectors, plugging in connectors, unscrewing a cap, opening a door, or grasping large objects with two hands, our ...

    SBIR Phase II 2013 National Aeronautics and Space Administration
  10. Enabling Large-body Active Debris Removal

    SBC: Vectornav Technologies, LLC            Topic: T602

    Research suggests that: (1) orbital debris has reached the point that, even with no future launches, collisions among large-body debris will lead to unstable growth in debris, and (2) removing as few as five large objects each year can stabilize debris growth. For large-body active debris removal (LB-ADR), new technologies are required to safely capture the target debris. The interactions of these ...

    STTR Phase II 2013 National Aeronautics and Space Administration
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