Award Data

The objective of this Phase II project is to complete the research required to deliver to the THAAD program for military qualification testing a low cost, easy to use, passive, nonreversible, MEMs based, chemiresistor sensor for the detection of hydrazine in missile canisters. The Air Force has set the maximum exposure limit to hydrazine at 10 ppb for an 8-hour period. A hydrazine sensor is need ...

Under Phase-I of MDA SBIR 16.3-021, i3 demonstrated a new time-efficient technique, the i3 Transient Decomposition Method (TDM), for generating statistically-based material response models that predict the decomposition process that thermal protection system materials undergo when exposed to severe aerothermal heating environments. The i3 TDM is an enabling technology for MDA and other agencies th ...

VASST seeks to secure large systems, overcoming challenges arising from size and scale, vulnerability analysis, and cyber and physical integration. It defines vulnerabilities at the component level and translates their effects up to the system level. It does this in a two stage process, with the first stage seeing the evaluation of cyber vulnerabilities to produce model effects which are in turn e ...

Fine powder thermal battery cathode materials can exhibit challenging flow properties which makes processing with automated presses difficult.Granulating these powders can substantially improve flow properties and reduce the tendency for powder segregation during handling and pressing operations.Additionally, the properties of MgO that lead to good performance in thermal battery separators are not ...

GeneCapture, Inc. is proposing to develop a rapid in vitro diagnostic prototype using our patented molecular-based CAPTURE (ConfirmActive Pathogens Through Unamplified RNA Expression) assay. Based on the results and experience gained in our Phase I STTR contractHDTRA1-16C-0061: Infectious Disease Diagnostics and Differentiation of Viral vs. Bacterial Infections for Point of Care Applications, we p ...

Accuracies of initial alignment and gyroscopic drift in the presence of fast maneuvers and the settling time of gyroscopes and accelerometers govern navigation performances of Inertial Measurement Units (IMU) and of their associated Inertial Navigation (sub) Systems (INS). Most measuring devices include some electromechanical device, which has a time lag. In the case of IMU, the integration of mea ...

Current environment models employed in MDA simulations are, in general, not coordinated to present a globally consistent environment picture and can be based on functions that have not been updated to take advantage of the environment models and databases that have become freely available in the information age. In contrast, radar atmospheric effects models whose behavior is derived from globally ...

Diode-Pumped Alkali Lasers (DPALs) have great potential for high-energy lasers. Proper design of these systems is challenging because many interrelated processes impact their performance, and critical kinetic rate coefficients are not well known. In response, our team is developing a comprehensive physics-based analysis/design tool, and experimentally determining key kinetic rate coefficients. The ...

Agent Enabled Advanced Intrusion Detection System (AEA-IDS) Phase I provided insight into the latest research, tools, and products available to protect mission critical systems. The proposed Phase II project, will build on this research to address several critical CNO technology gaps identified by National Security Agency (NSA) and applicable to systems like GMD: CNO sensor improvements CNO ...

FreEnt Technologies, Inc., A2Z Innovations, Inc., and the University of Alabama Aerospace Research Center (UAH/ARC) have teamed together to design, develop, and perform ground-based-demonstrations of a High-Speed Simultaneous Multiple Object Detection (HS-SMOD) System for MDA. The HS­SMOD system uses a simple but innovative technique of a passive fiber-optic grid and high-speed COTS opto-electr ...