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NOTE: The Solicitations and topics listed on this site are copies from the various SBIR agency solicitations and are not necessarily the latest and most up-to-date. For this reason, you should visit the respective agency SBIR sites to read the official version of the solicitations and download the appropriate forms and rules.


If no search results for your keyword(s) were found, you are encouraged to review Agency omnibus solicitations for additional funding opportunities. Omnibus solicitations are structured to be broad, extensive Programmatic issuances with research areas related to the petitioning Agency and are not limited to predetermined Topics/Subtopics. If upon reviewing you have additional questions, you may consider reaching out to the respective Agency for clarification regarding acceptable proposals (https://www.sbir.gov/agency-contacts).

  1. N23A-T021: Autonomous, Long-Duration, Directional Ambient Sound Sensor

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop an autonomous, long-duration, directional ambient sound sensing system capable of being integrated into a variety of platforms including floats, gliders, and ocean observation buoys. The system should output soundscape-related information in a manner that is scaled to match platform communications bandwidth. DESCR ...

    STTRPhase IDepartment of DefenseNavy
  2. N23A-T022: Lightweight Mirrors for Microsatellites and Small Satellites

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Space Technology OBJECTIVE: Develop innovative manufacturing methods to produce high-quality lightweight optical mirrors for use in space on microsatellites (microsats) and small satellites (smallsats), particularly at ultraviolet (UV) and extreme ultraviolet (EUV) wavelengths. DESCRIPTION: The Navy seeks improvements in the manufacturing of lightwei ...

    STTRPhase IDepartment of DefenseNavy
  3. N23A-T023: Integrated Optical Imaging of the Environment on Underwater Autonomous Vehicles

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Advance integration of camera imagery collection and onboard processing for environmental sensing on low-power, long-duration oceanic gliders and/or profiling floats. The system should allow for two-way communication between the sensor and platform microcontrollers; and software architecture should be tunable to specific p ...

    STTRPhase IDepartment of DefenseNavy
  4. N23A-T024: Compact Condensers Enabled by Additive Manufacturing

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    DESCRIPTION: Cooling of high power electronics via refrigerant evaporation presents a significant opportunity to reduce the size, weight, and power (SWaP) consumed by thermal management systems. Recent advances have led to demonstration of compact microchannel evaporators with heat transfer coefficients in excess of 100 kW/m2^K and low pumping powers. Condensers are often the largest component in ...

    STTRPhase IDepartment of DefenseNavy
  5. N23A-T025: Cloud Nowcasting Data/Model Fusion

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop an algorithmic tool for the seamless assessment of previous, current and short term forecast (0-24 h) atmospheric cloud characteristics such as ceiling, thickness, and optical depth for single and multiple overlapping cloud fields using machine learning methods to combine satellite based environmental monitoring (S ...

    STTRPhase IDepartment of DefenseNavy
  6. N23A-T026: Development of Finite-Rate Ablation Toolset for Hypersonic Vehicles

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Hypersonics; Nuclear OBJECTIVE: Formulate, implement, and validate finite-rate ablation models for hypersonic boost-glide vehicle thermal protection systems (TPS) such as 2D and 3D carbon-carbon (C/C) for accurate prediction of vehicle shape change, temperature distributions, and ablated species. DESCRIPTION: Boost-glide vehicles primarily rely on ablating ...

    STTRPhase IDepartment of DefenseNavy
  7. N23A-T027: Digital Sidekick for Submarine Watchstander Augmentation

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy; Integrated Network Systems-of-Systems OBJECTIVE: Develop a haptic alert system (Digital Sidekick for Submarine Watchstander) to substantially accelerate information delivery timelines for critical alerts, which can be delayed or completely missed due to information overload. DESCRIPTION: Information overload is a critical factor ne ...

    STTRPhase IDepartment of DefenseNavy
  8. N23A-T028: Broadband, High Power, Low Loss N-polar GaN Radio Frequency (RF) Switches

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): FutureG; Microelectronics; Integrated Network Systems-of-Systems OBJECTIVE: Maximize radio frequency (RF) Switch performance in Nitrogen-polar (N-polar) Gallium Nitride (GaN) based on a high electron mobility transistor (HEMT) epitaxial layer structure capable of 4 W/mm power density. DESCRIPTION: RF switches are used in virtually all wireless systems. Los ...

    STTRPhase IDepartment of DefenseNavy
  9. N23A-T029: Non-Intrusive Aerodynamic State Sensing for Hypersonic Flight Control

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Hypersonics; Microelectronics OBJECTIVE: We will develop the flow theory, measurement technology, and estimation algorithms to enable non-intrusive aerodynamic state sensing for hypersonic flight control. The flow theory will describe measurable flow phenomena and their correlation to a weapon’s aerodynamic state. The measurement technology will sense the ...

    STTRPhase IDepartment of DefenseNavy
  10. SF23A-T001: Integrated Navigation, Communication, and Authentication

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy; Integrated Network Systems-of-Systems The technology within this topic is restricted under the International Traffic in Arms Regulation (ITAR), 22 CFR Parts 120-130, which controls the export and import of defense-related material and services, including export of sensitive technical data, or the Export Administration Regulation (EA ...

    STTRPhase IDepartment of DefenseAir Force
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