Award Data

In this project, a new TOA/TDOA UWB RAC location system will be developed and applied to precision guidance and navigation of autonomous mine-detection mobile robots. The system will be capable of pinpointing geographical position of an object with accuracies from a few centimeters to a few meters over an area of several to hundred square kilometers at a position update rate of over 200 updates pe ...

Visual Simulation, Training, and Virtual Prototyping platforms demand ever increasing fidelity in their presentations. Visual cues such as lighting and shading, shadows, and distinguishable surface contour must be presented to offer a sense of depth and realism in the environment. High performance dynamics models require access to the surface contour at a sub-polygonal level to be correlated wit ...

This DOD Air Force SBIR program focuses on developing and commercializing a nanomaterials-based high rate rechargeable battery technology that provides performance, weight and safety advantages for aerospace applications. The proposed research builds on T/J Technologies’ innovative electrode materials and extensive system-level development of high rate Li-ion rechargeable batteries. In Phase I ...

Fixed and rotary winged aircraft require directed infrared counter-measures (DIRCM) systems to self-protect against heat seeking missiles, and the DIRCM multi-spectral light source is a key enabling technology and differentiator. Omni Sciences, Inc. (OSI), has developed a Mid-Infrared Super-Continuum Laser (MISCL) for DIRCM and other DoD applications that uses COTS components from the mature telec ...

The future military communication, sensing and electronic warfare systems such as the proposed national missile defense (NMD) system require increasing functionality and performance endurance in harsh space environments. There is a persistent need for reliable tunable filters with a wide bandwidth of operation. In response to this need, EMAG Technologies in collaboration with Purdue University pro ...

Space Photonics proposes a miniature, low power, high speed, optical communications turret utilizing a unique system design requiring no gimballing. This technology and design enables optical communications turrets specifically for unmanned aerial vehicle (UAV) and other airborne vehicle applications to rapidly acquire and track optical cross-link signals crucial for advanced high speed, high dat ...

This proposal describes the impetus towards the development of low cost and high performance SiGe (Silicon Germanium) based millimeter wave power amplifier ICs for phased array transmit applications. We have developed innovative millimeter wave power amplifiers designs in Phase I for Q-band and in Phase II, we will fabricate, test, and productize these designs in a low cost commercial SiGe HBT (he ...

The desired outcome of this STTR project is the development of compact, stand-alone, economical, and rugged pulse shaper units that can be used to control chemical reactions, and have a wide range of applications based on molecular control for detection of chemical and biological threats, explosive, and toxic chemicals. In addition, these units will enable a broad range of fundamental studies. Dur ...

ABSTRACT: This STTR proposal is the natural consequence of our collaboration that makes use of the established know-how under the MURI program, the established track record of RHK in commercialization of critical hardware, software and electronic controllers to implement scanning probe microscopy with nanometer scale resolution of structural, electrical and optical materials properties for more t ...

ABSTRACT: Opteos Inc. is proposing a new approach to the measurement of electric fields based on the electrooptics principles. This system promises an extremely high bandwidth of operation, 50GHz to 100GHz, a wide dynamic range up to 60dB, and high accuracy better than 1% full scale. The system is modular with partitioning concepts that allow for inexpensive expansion and easy maintenance. The p ...