Award Data

Missile modernization and future missile designs are utilizing more sophisticated and higher powered electronics in the pursuit of extended missile range, improved accuracy and precision targeting for striking enemy threats. Tight packaging and sophistication of these electronic systems can generate significant heat loads, which needs to be dissipated efficiently in order to maintain functionality ...

Physical Sciences Inc. and Colorado State University will develop an innovative sensor that enables low-cost infrared hyperspectral imaging though the use of novel sampling algorithms which provide real-world chemical plume detection capability with compressed data and a hardware configuration which enables high frame rate capture of full 2D spatial and 1D spectral data. Compressive sensing techn ...

Pyrotechnics offer a novel low energy Control Actuation System (CAS) approach reducing limitations associated with typical electro-mechanical CAS. With 2.5 to 3 times more usable energy stored per unit volume and more importantly a power density that is orders of magnitude greater than that of a comparable electromechanical device, a pyrotechnically driven CAS potentially requires less total volum ...

The US Army faces a significant burden in planning sustainment operations. Currently, logistics planners must manually evaluate potential emplacement sites to determine their terrain suitability. Sites subject to rainfall-runoff responses such as ponding are ill-suited for emplacements, but evaluating the likelihood of such responses requires significant time and expertise. To reduce the time and ...

Accounting for the impacts of terrain and weather is key to identifying potential Courses of Action that mitigate their effects. TSC and CSU propose a convergence of technologies 1) CSU"s prototype engine for estimating locations prone to water ponding, 2) the Army Research Laboratory"s My Weather Impacts Decision Aid (MyWIDA) which already produces weather impact maps and 3) TSC"Petroleum and ...

This proposed Phase I SBIR program with the US Army will focus on demonstrating ultra-low dark current in flexible, high-efficiency photovoltaic cells with nano-enhanced absorbers. By extending infrared absorption, power conversion efficiencies in single-junction, nano-enhanced solar cells can potentially meet or even exceed the Shockley-Queisser limit. Novel device designs utilizing advanced ba ...

SI2 Technologies, Inc. (SI2) proposes to develop printed, high-performance ultracapacitors to meet the Army"s need for lightweight energy storage. SI2 will leverage its demonstrated expertise in ink jet printing and our partner"s expertise with carbon nanoparticle synthesis to develop low-cost, flexible, printed ultracapacitors. SI2 has considerable experience in the roll-to-roll deposition of ...

We propose a rapid mapping and 3-D visualization system especially suited for inside buildings, tunnels, urban canyons, and other environments where GPS may be poor or not available. The system--which was fully demonstrated in our Phase I effort-- includes mobile Sensor Nodes that wirelessly supply compressed 3D range data and color imagery to a central Fusion Node. The Fusion Node runs 3D recon ...

The proposed Bio-Inspired Visual Navigation System will enable UGVs to operate semi-autonomously with minimal input from an operator even in degraded communication environments. Semi-autonomous landmark-based navigation in low-texture indoor environments is difficult due to the lack of distinctive micro-features needed by conventional algorithms such as SIFT and SURF. In Phase I, Intelligent Aut ...

Obscurant materials are used to defeat threats in all areas of the electromagnetic spectrum. New Army requirements have been established for novel, multi-spectral, high performance obscurants to defeat a range of threats with a single material system. On a Phase I program Physical Sciences, Inc. (PSI) coupled inherently conductive polymers (ICP) with graphene like structures to provide enhanced ...