Award Data

Compression After Impact (CAI) response is widely used for characterizing damage tolerance of aerospace grade composite materials in structural design. Since impact induced damage is not readily visible in many instances, quantification of residual stiffness and strength under different service conditions following impact is critical for ensuring structural safety until the component or the struct ...

As a developer of Unmanned Aerial System Ground Control Stations, the U.S. Army"s Bi-Directional Remote Video Transceiver (BDRVT), and several other manned-aircraft technologies, Kutta is keenly aware of human machine interface (HMI) issues inside military cockpits. Based on an extensive Phase I hardware analysis that tested multiple Commercial off the Shelf (COTS) laser-based technologies similar ...

Tactical Mobile Ad-hoc Networks (MANETs) offer exciting new capabilities for flexible, rapidly deployable peer-to-peer communications, and they require cutting-edge innovations to function. Network management is a particular challenge, because the MANETs that form the"last mile"of next-generation networks face unique constraints: highly dynamic topology, limited bandwidth, unpredictable connectivi ...

This Small Business Innovation Research Phase II project will develop targeted nanoparticle delivery systems capable of delivering conventional cytotoxics preferentially to tumor cells. While therapeutic nanoparticles have been introduced into clinical practice (Abraxane(TM) and Doxil(TM)) and others are in development, none have been developed that show tumor target specificity (as opposed to inc ...

This Small Business Innovation Research (SBIR) Phase II project will develop a high--?]throughput --?] surface acoustic wave nebulization (HTP--?]SAWN) ion source for mass spectrometry (MS). The SAWN ion source developed during phase I resulted in a device that has competitive performance between the two most popular ionization techniques for MS: electrospray ionization (ESI) and matrix--?]assiste ...

ABSTRACT: We propose to develop for the Air Force a high-efficiency Waste Heat Removal System (WHRS) that removes large amounts of waste heat from aircraft with negligible impacts on signature and aerodynamic performance. Our WHRS absorbs heat from aircraft thermal loads, including a Thermal Energy Storage (TES) system that absorbs and stores heat from the cooling system of a High Energy Laser ( ...

Advanced thick composites are increasingly used in components for defense applications as well as commercial structures. Component level structural testing and analysis of advanced composites is prohibitively expensive and time consuming. Instead, using robust and accurate computational tools complemented by experiments at key stages is a viable and cost-effective option. The proposed project will ...

Under this proposed SBIR effort, Bridger Photonics, Inc. (Bridger) will advance its industry-leading length metrology capabilities to reach sub-10-nanometer precision,>40 Hz update rate,>10 cm measurement range, and sufficient sensitivity to enable measurement of high reflection angles (>5 degrees) on ceramic materials with bulk scattering. Bridger will integrate this metrology system with OptiPro ...

We propose to develop an optical system to measure arch-shaped corrective optics using the Software Configurable Optical Tests System (SCOTS) developed by the proposing team for freeform aspherics. The full arch is measured by scanning subaperture regions and stitching the data. SCOTS measurements use video images of an optic under test illuminated with modulated patterns from a digital display. P ...

This SBIR Navy Phase I Project proposes to scale up MER"s window technology to make larger, stronger, monolithic windows from spinel polycrystalline ceramic. This proposal presents a solution to the Navy"s need for durable, monolithic, infrared-transmitting sensor windows with hot pressed (HP) sizes up to 28"x30"x0.6"for reconnaissance purposes. The larger size window is limited by the available e ...