Award Data

This STTR project will develop and validate a robust, scalable computational capability for the simulation of weapon-target interactions of interest to the Army. The proposed algorithm is based on the FLIP (Fluid Implicit Particle) - MPM (Material Point Method) - MFM (Multiphase Flow Method) approach and CartaBlanca nonlinear solver environment developed at Los Alamos National Laboratory. CartaB ...

From consultations with the Army program manager, it was determined that the Army has a strong need for improved amplifiers in the W band. Accordingly, the proposed Phase II overall technical objective is to develop a 10 W, W-band prototype planar helix TWT. In Phase I, we addressed improving the repeatability, cost and yields of conventional Ka-band TWTs by introducing novel circuits, beam sou ...

In Phase I a revolutionary system for digital imaging microscopy was demonstrated. The system is based on the newly-developed imaging technology of Wavefront Coding (WFC). WFC employs specialized aspheric optics and digital processing to greatly increasethe depth of field or depth of focus. WFC simultaneously decreases the size, weight, and cost of a variety of digital imaging systems. Depth o ...

The Phase I program objectives were successfully completed. In addition, novel ideas were developed that will be of use in the Phase II program and in the field of algorithm development and sensor characterization in the laboratory. Work on new algorithmswas initiated to optimize wavelength selection for vapor and aerosol detection, a detailed design for obtaining sensor detection statistics in th ...

To be commercially competitive, PEM fuel cells have to be able to run on readily available fuels. Fuel reformers are practical, but fuel cell anode catalysts are severely poisoned by small quantities of carbon monoxide from the reformer. Despite mucheffort invested into increasing CO tolerance, desired performance levels have not been achieved.Our Phase I data has demonstrated excellent CO-toler ...

Frontier Technology, Inc. (FTI) and University of Florida (UF) propose to validate and demonstrate designs for biomimetic camouflage systems (

In the phase I effort, IAI successfully demonstrated the feasibility of co-operative swarm based approach to boundary tracking. This approach is relevant to applications such as tracking oil spills using a swarm of robots, tracking enemy troop movement using a swarm of UAV's (Future Combat System (FCS) type scenario), and tracking of static and moving mine fields . In Phase II, we continue our ef ...

The overall objective of this Phase II program is to produce, by the end of the two-year effort, a low-cost, ready-to-use, field-deployable simple kit comprising paper, wood or plastic strips that detect the principal chemical warfare agents (CWAs) - Mustard, Sarin, Soman, and VX - in liquid as well as vapor forms, by fast and dramatic color changes. Our Phase I work produced prototype demonstra ...

Theoretical investigations and technology developments during last years have created new conceptual approach to design and build a new class of plasma wave electronics detectors of terahertz (THz) wave range. Terahertz radiation corresponds to the frequency bands of molecular and lattice vibrations in gases, fluids, and solids. THz detectors with higher sensitivity is urgently need for important ...

Chemical warfare agents with their low vapor pressure can stay on a surface for long periods of time and pose a serious threat to anyone coming into contact with the surface. A standoff sensor that can visualize and identify such a threat is of greatinterest to the US military.Pacific Advanced Technology (PAT) has a technology with the capability of standoff detection and the potential for identif ...