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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.

Displaying 211 - 220 of 19116 results
  1. RFA-TR-24-001: Basket Clinical Trials of Drugs Targeting Shared Molecular Etiologies in Multiple Rare Diseases (U44 Clinical Trial Required)

    Release Date: 12-01-2023Open Date: 12-04-2023 Due Dates: Multiple Close Date: 03-16-2024

    While there are thousands of rare diseases, the number of underlying etiologies is much smaller. Moreover, many disease etiologies underlie multiple traditional diseases. This is most readily seen for rare monogenic diseases, where the most common etiologies include premature termination codons, protein misfolding, and abnormal RNA splicing. Other examples of rare disease shared molecular etiologi ...

    SBIRPhase IIDepartment of Health and Human ServicesNational Institutes of Health
  2. N24A-T001: High-Bandwidth Multimode Fiber-Optic Cabling

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Integrated Network Systems-of-Systems; Microelectronics; Sustainment OBJECTIVE: Design and develop a high-bandwidth multimode optical fiber for avionic and sensor applications. DESCRIPTION: Current airborne military (mil-aero) core avionics, electro-optic (EO), communications, and electronic warfare systems require ever-increasing bandwidths while si ...

    STTRPhase IDepartment of DefenseNavy
  3. N24A-T002: In-situ AM-2 Aluminum Mat Repair

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Sustainment OBJECTIVE: Evaluate the implementation of a novel repair technique for AM-2 aluminum matting repair in-situ. The idea is to analyze the repair effectiveness by comparing virgin AM-2 specimens to specimens artificially damaged and repaired, in terms of mechanical performance. DESCRIPTION: Rapid deployment of Expeditionary Airfields (EAF) i ...

    STTRPhase IDepartment of DefenseNavy
  4. N24A-T003: High-Frequency 40 GB/s MWIR and LWIR Metamaterials-based Electro-Optical Modulators for Free-Space Optical Communications

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Integrated Network Systems-of-Systems; Sustainment; Trusted AI and Autonomy OBJECTIVE: Develop tunable metamaterials that enable narrow-linewidth multi-watt laser transmitter, which operate with ultrafast modulation (40 GHz) and high-beam quality in the 4 to 12 µ spectral region, to provide optical communications in RF-denied environments. DESCRIPTI ...

    STTRPhase IDepartment of DefenseNavy
  5. N24A-T004: Automated Performance Monitoring for Rotorcraft Turboshaft Engines Using a Multimodel Approach

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop and integrate multiple models using machine learning and artificial intelligence to continuously and accurately estimate and predict power available for rotorcraft turboshaft engines across all aircraft operating conditions. DESCRIPTION: Accurate estimates of engine health are critical for ensuring safe oper ...

    STTRPhase IDepartment of DefenseNavy
  6. N24A-T005: Real-time Computational Enhancement of Video Streams

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Sustainment; Trusted AI and Autonomy OBJECTIVE: Develop and implement efficient computational algorithms for fast, low-latency deblurring, denoising, and super-resolution of video streams under dynamic conditions. DESCRIPTION: Intelligence, surveillance, and reconnaissance (ISR) and automatic target acquisition (ATA) systems are continuously challeng ...

    STTRPhase IDepartment of DefenseNavy
  7. N24A-T006: Manufacturing Method Development of Nanocomposite Steel Wire for Arresting Gear Purchase Cable

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Sustainment OBJECTIVE: Develop a manufacturing method capable of producing nanocomposite steel wires (steel infused with carbon nanotubes) with requisite volumes to produce metal matrix composite (MMC) arresting gear purchase cable at a cost that is comparable to steel-only cable. DESCRIPTION: Aircraft are recovered on Navy carriers by means of a ste ...

    STTRPhase IDepartment of DefenseNavy
  8. N24A-T007: Integrated Environmental Model System for Platform Situational Awareness

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    MODERNIZATION PRIORITIES: Trusted AI and Autonomy OBJECTIVE: Develop an Integrated Environmental Model System (INTEMS) that acquires, aggregates, and validates shore-based environmental predictions for naval platforms systems. DESCRIPTION: The Navy provides a comprehensive set of global forecasts via Fleet Numerical Meteorology and Oceanography Center (FNMOC), but they are not available ...

    STTRPhase IDepartment of DefenseNavy
  9. N24A-T008: Kilowatt Class Stimulated Brillouin Scattering Reduced Hollow-Core Fiber (HCF) Dip Loop Cable Assembly

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Advanced Materials OBJECTIVE: Develop an innovative design and manufacturing approach for a kilowatt (kW) class Stimulated Brillouin Scattering (SBS) reduced Hollow-Core Fiber (HCF) marine connectorized cable assembly with Optical Hull Penetrator (OHP) for submerged operation. DESCRIPTION: Currently, the Navy has a need for a kW class SBS reduced HCF ...

    STTRPhase IDepartment of DefenseNavy
  10. N24A-T009: Smart Exhaust Waste Heat Recovery Unit (SEWHRU)

    Release Date: 11-29-2023Open Date: 01-03-2024Due Date: 02-21-2024Close Date: 02-21-2024

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Directed Energy (DE) OBJECTIVE: Develop and demonstrate a self-cleaning Smart Exhaust Waste Heat Recovery Unit (SEWHRU) for internal combustion engines flue gas ranging in temperature from 500 to 1200 °F, for use in electric generation and/or heating and cooling processes. DESCRIPTION: A typical diesel engine attains approximately 42% brake thermal ...

    STTRPhase IDepartment of DefenseNavy
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