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The Award database is continually updated throughout the year. As a result, data for FY22 is not expected to be complete until September, 2023.
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.
Proactive Contextual Decision Support for Decision Making Under UncertaintySBC: PACIFIC SCIENCE & ENGINEERING GROUP, INC. Topic: N13AT020
Current decision tools often omit important situational context. Unfortunately, this can lead to dangerous and costly errors, as context drives decision making. For example, in operational navigation planning tasks, decisions must be made that rely on multiple information sources of different fidelities and uncertainties. Furthermore, after obtaining additional information the necessity for replan ...STTR Phase II 2015 Department of DefenseNavy
APEX: Adaptive and Peripheral surveillance fusion EngineSBC: DEUMBRA, INC. Topic: N05T019
It is computationally infeasible to implement a complete Level 2/3-fusion solution that has detailed knowledge of all parts of an area of interest all the time. A staged approach is needed where the first stage implements a real time peripheral vision sensor analysis to identify asymmetric threats. The second stage implements a “foveal vision” sensor analysis that identifies, links and valid ...STTR Phase II 2006 Department of DefenseNavy
Person Portable JP-8 Fueled Fuel Cell-Power Generator (PJF-Gen)SBC: Altex Technologies Corporation Topic: N05T016
Altex Technologies Corporation, a small business, and Pennsylvania State University, a research institution, have teamed up to develop the innovative Person Portable JP-8 Fueled Fuel Cell Power Generator (PJF-Gen). The 500-1000 watts system will be lightweight, the size of a lunch box, will reliably operate on JP-8 and start fast, thereby meeting all Navy requirements. This is achieved by using ...STTR Phase II 2006 Department of DefenseNavy
Advanced Flywheel Energy Storage for Pulsed Power ApplicationsSBC: CALNETIX Topic: N04T013
During the NAVY STTR Phase II Calnetix will further develop its concept of advanced flywheel system proposed in Phase I and will demonstrate the validity of the underlying principles through building and testing a system prototype. This prototype will be a fully functional system capable of supporting up to 2MW of pulse power with the ability of producing 500kW (30 seconds) loads in high-duty-cyc ...STTR Phase II 2006 Department of DefenseNavy
Adaptive Space-Time Radar Techniques and WaveformsSBC: CHIRP CORP. Topic: N04T007
The problem is to improve airborne maritime radar detection of small moving targets in clutter, where the clutter varies with time, range, azimuth, sea state, grazing angle, wind speed, and the look direction of the radar relative to the wind direction. A new version of space-time adaptive processing (STAP) is applied to the problem. The new technique provides improved covariance estimation for ...STTR Phase II 2006 Department of DefenseNavy
A Novel Single Sideband Suppressed-Carrier (SSB-SC) Technique for High Dynamic Range Analog ApplicationsSBC: IPITEK, Inc. Topic: N05T008
Photonic links and networks offer numerous advantages to analog RF systems, and enable advanced performance in Naval aircraft analog RF systems: spurious-free dynamic range (SFDR) exceeding 125 dB/Hz^2/3 with instantaneous bandwidth up to and exceeding 1GHz for operational frequencies from 0.1 to 20 GHz. IPITEK proposes a novel single sideband suppressed-carrier (SSB-SC) technique that offers a ...STTR Phase II 2006 Department of DefenseNavy
High Resolution Eyesafe 3-D LADAR Maritime Imaging ModelSBC: LIDAR PACIFIC CORP. Topic: N05T001
This project will demonstrate 3D sensor capability to identify and track maritime targets, collect target characteristics that enable quick development of identification (ID) templates for ID and tracking of new targets, apply the technology to currently deployed naval passive sensor suites, and extend the technology to airborne platforms.STTR Phase II 2006 Department of DefenseNavy
Ruggedized Multifunction Fiber-Optic Transceiver Optical SubassemblySBC: ULTRA COMMUNICATIONS, INC. Topic: N05T005
This program adds built-in-test (BIT) functionality within multi-Gbps multimode fiber optic transceivers. The end goal is to develop transceivers capable of detecting and isolating fiber faults along the cable plant in a military environment. This Phase II effort will investigate a solution that integrates the BIT functionality into the transceiver IC so that the overall optical subassembly and ...STTR Phase II 2006 Department of DefenseNavy
Advanced Optically-driven Spin Precession Magnetometer for ASWSBC: POLATOMIC, INC. Topic: N04T002
This SBIR Phase II proposal describes the development of a breadboard Advanced Optically-driven Spin Precession Magnetometer (AOSPM), an ultra high-sensitivity scalar laser magnetometer for airborne ASW. The AOSPM is an innovative high-sensitivity instrument capable of measuring scalar DC and ELF magnetic fields with a sensitivity better than 10.0 fT/root-Hz. Since the high sensitivity AOSPM is a ...STTR Phase II 2006 Department of DefenseNavy