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SBC: CMSOFT, INC. Topic: AF18AT004
The main objective of this STTR Phase I effort is two-fold. First, to develop a robust approach for coupling the flow solver Kestrel with the multidisciplinary software tool AERO Suite in order to enable the physics-based modeling and simulation of the dynamics of Aerodynamics Decelerator Systems (ADS) such as parachutes from deployment to terminal velocity or terminal descent and touchdown, and t ...STTR Phase I 2018 Department of DefenseAir Force
SBC: PHYSICAL SCIENCES INC. Topic: AF14AT13
Physical Sciences Inc. (PSI) and the research group of Professor Richard Osgood at Columbia University propose to develop a compact optical transceiver based on devices fabricated on a complementary metal-oxide semiconductor (CMOS) platform. The recent development of novel integrated structures in silicon including waveguides, resonators, and photodetectors will enable dramatic reductions in size, ...STTR Phase II 2016 Department of DefenseAir Force
SBC: SEAKR ENGINEERING, LLC Topic: AF11BT12
The SEAKR team proposes to continue development of the advanced protocol routing system begun in the Phase I effort, to reduce risk toward a flight deployable system for SATCOM assets such as Iridium NEXT. SEAKRs development of the Iridium NEXT modem...STTR Phase II 2016 Department of DefenseAir Force
SBC: TECH-X CORPORATION Topic: AF15AT33
The overall project objective is to develop and demonstrate a software package based on Fermi kinetics charge transport and Delaunay/Voronoi field discretization that accurately predicts semiconductor device behavior from DC up through the mm-wave and TH...STTR Phase II 2016 Department of DefenseAir Force
SBC: HYPERCOMP INC Topic: AF14AT07
In this program, HyPerComp and University of Michigan have teamedtogether to develop a high-order grid generator for Euler and viscousmeshes. The grid generator is based on HyPerComps successful generalpurpose CAD2Mesh software and is being integrated with HyPerCompsHDphysics and U. Michigans XFlow DG high-order solvers. High-order gridgeneration methods are being implemented to accurately capture ...STTR Phase II 2016 Department of DefenseAir Force
SBC: FREEDOM PHOTONICS LLC Topic: AF14AT13
This work will focus on the development of monolithic SWIR focal plane array technologies using CMOS or CMOS compatible fabrication technology. This will be realized on a Silicon substrate and incorporate APD+TIA arrays and be scalable to Megapixel arrays and coherent receiver operation for capture of the full optical wavefront vector information.STTR Phase II 2016 Department of DefenseAir Force
SBC: COLDQUANTA, INC. Topic: AF17AT028
ColdQuanta is partnering with Dr. Zoya Popovic at the University of Colorado, Boulder, to develop a three-dimensional quantum-enhanced radio-frequency (RF) signal sensor and direction finder. Our approach combine Rydberg-atom-based RF electrometry and discrete lens arrays (DLAs) of planar antennas. The DLA will serve as a Fourier optic for an incident wave, and a Rydberg-atom RF electrometer will ...STTR Phase I 2018 Department of DefenseAir Force
SBC: Intelligent Automation, Inc. Topic: AF14AT09
Current methods for inspecting the external surfaces of low-observable (LO) aircraft are time consuming and error prone. Technology that can reduce inspection times and minimize human error will benefit the Air Force by increasing assessment reliability and aircraft availability while reducing maintenance costs. To address this need, Intelligent Automation (IAI) and Carnegie Mellon University (CMU ...STTR Phase II 2016 Department of DefenseAir Force
Harness Enhanced Awareness for Radio System (HEARS) for Dynamic Spectrum Access in Space ApplicationSBC: INTELLIGENT FUSION TECHNOLOGY, INC. Topic: AF13AT02
ABSTRACT: In this project, IFT and its academic partner GMU developed an innovative Harness Enhanced Awareness for Radio Systems (HEARS) framework and technical underpinnings for DSA systems operating under conditions of imperfect knowledge, and used the framework to address challenging problems in satellite communication (SATCOM)DSA. As the logical core of the HEARS, Multi-Entity Bayesian Network ...STTR Phase II 2015 Department of DefenseAir Force
SBC: COMBUSTION SCIENCE & ENGINEERING, INC. Topic: AF13AT12
ABSTRACT: The U. S. Air Force needs turbulent combustion models that can be used to simulate combustion in actual propulsion systems at both design and off-design conditions, not models that are only useful for highly idealized problems. With this motivation in mind, Combustion Science & Engineering, Inc. and the Computational Combustion Lab at Georgia Tech plan to enhance current capabilities to ...STTR Phase II 2015 Department of DefenseAir Force