Award Data

Adaptive control offers an opportunity to fulfill aircraft safety objectives though automated vehicle recovery while maintaining performance and stability requirements in the presence of unknown or varying operating environment. Future aircraft are a natural application of adaptive control. These aircraft will be more fuel efficient, have longer operating ranges though more flexible aircraft struc ...

The main challenges of treating post-combatant PTSD include getting patients into treatment, keeping them engaged, and motivating them to complete out-of-session take-home work. SAGA (Sequential Art via Game Assistance) addresses these challenges by providing PTSD patients an engaging and educational game environment that helps them understand and communicate their trauma while creating a graphic ...

This SBIR will study the application of a brain machine interface (BMI) to enable crew to remotely operate and monitor robots from inside a flight vehicle, habitat and/or during an extra-vehicular activity (EVA). The goal is to improve robot operator productivity, situational awareness, and effectiveness. With the application of a BMI technology an astronaut in an extravehicular suit could grea ...

The proposed novel program will use measurements of the high-energy photon output from gamma-ray celestial sources to design a new, unique navigation system. This Gamma-ray source Localization-Induced Navigation and Timing, or "GLINT", concept provides deep-space vehicles the capability for self-navigation based upon measurements from observations of these source signals. In the past, gamma-ray so ...

SVT Associates proposes an novel type II superlattice structure to extend the cutoff wavelength and CBIRD SL photo diode structure with unipolar barriers to suppress dark current of SL detectors grown on GaSb substrate. This InAs/GaSb superlattice material system is capable of infrared detection in MWIR/LWIR spectral range, depending on layer thickness of each superlattice period. The goal of this ...

Recently, resonant-tunneling-diode (RTD) based circuits employing monolithically-integrated RTD on high electron mobility (HEMT) structures have been developed in a number of III-V systems in order to improve operational speed. The main goal of this program is to develop wide temperature-operable radiation hard monolithically-integrated electronics based on wide bandgap III-nitride epitaxial struc ...