Award Data

Abstract The specific goal of this SBIR effort is the development of a compact, power scalable laser source that operates 2.7 to 3 microns. The core technologies will utilize recent advancements in highly doped Er:YAG Single Crystal Fibers and integrate them into a platform that can be scaled.

This proposal is in response to rapid modeling need in our military force. We plan to develop and demonstrate a framework that will allow warfighters to rapidly acquire and edit geospecific terrain databases, including both building exterior and interiors. The output of our models will be in standard 3D format, which can be used in a variety of simulation and training software, including VBS2. We ...

In this Phase I SBIR program, Tetramer Technologies will develop new, commercially attractive, thermoplastic optical polymers that have ultra-low scattering losses for use in diffraction-limited optical lenses. The value proposition to the customer using Tetramer"s optical polymers will be decreased scattering of light transmitted through the polymer lens, resulting in smaller Airy disks and impro ...

To address a Navy need for a high resolution full color situational awareness displays to optimize human interface for Navy personnel, ships, and crafts, Hitron Technologies Inc. proposes to develop a see-through full color transparent flexible display with collaboration of Liquid Crystal Institute of Kent State University. The transparent flexible display is based on innovative integration of a f ...

The Quantum Engineering Design, Inc. (QED) Mission Module Handling Device (MMHD) is designed to meet the Navys requirements of minimizing the deck point loading while lifting and omni-directionally maneuvering ISO containers and Twenty foot Equivalent Units (TEUs) aboard both the Littoral Combat Ship (LCS) Freedom and Independence class of vessel. Special attention is paid to the need for operatin ...

The objective of this proposal is to develop Selective Availability Anti-Spoofing Module (SAASM) compliant GPS receiver for Geosynchronous Earth Orbit (GEO) applications. In this proposal, we explore an approach to design the GEO GPS SAASM receiver based on improved techniques for signal acquisition (or detection) and then signal tracking (and demodulation) of weak GPS signals. GPS signals availa ...

Expansion of the Advanced Breakwater And Causeway Ultramarine System (ABACUS) research and development work accomplished under the Phase II Basic and Options 1 & 2 programs to full scale prototype systems and large scale demonstration models for both Seabasing and ship-to-shore logistics support operations. The ABACUS family of systems support a) the mitigation of waves about Sealift ships at the ...

The QED team proposes to study an active motion compensation platform supported by a self-contained air cushion system. The Phase II study will evaluate the ability of the 'Ramp Motion Control Platform' (RMCP) to support and control the LMSR stern ramp through a range of elevated sea state conditions while maintaining its structural integrity within safe limits. The study will focus on the sensing ...

To meet the critical security needs of the Department of Homeland Security and others, we propose two methods for providing a secure root of trust for mobile devices. One method is designed to integrate as easily into existing systems, while the other requires deeper integration but provides correspondingly stronger security. The keys to our work are practicality and integration: practicality to e ...

Electrolyzer systems produce high value hydrogen on demand and on site, thus eliminating costly delivery and storage cylinders of hydrogen gas. The potential commercial market applications are projected to be in the $100 billion range by 2017 and are focused in the areas of industrial gas, transportation fueling, and backup power for renewable energy storage. However, the rate of growth of electro ...