Award Data

Coherent Logix, Incorporated proposes to develop a Hyperspectral Image Processing Platform (HIPP) that will revolutionize hyperspectral image processing systems with the capability to process a 128 Megabyte (MB) hyperspectral data cube at more than 30 data cubes per second while simultaneously being able to detect and track more than 970 independent anomalies per second. This computation intensiv ...

Coherent Logix, Incorporated proposes to develop a Simultaneous Real-Time Processing Surveillance Receiver (SRPSR) capable of measuring intended and unintended spectral emissions of electronic equipment in a very dense, noisy signal environment. This computation intensive SRPSR system will be based on Coherent Logix’s reprogrammable, dynamically reconfigurable, real-time adaptable, patent pendi ...

The design of electro-optical sensors increasingly relies on simulation models to predict performance in a wide variety of scenarios. The purpose of this SBIR program, dubbed kURT (k-distribution based Ultra-fast Radiative Transfer), is to develop very fast and accurate radiative transfer (RT) routines for incorporation in Army Research Laboratory (ARL) scene simulation software, building on the ...

This proposal presents an innovative low power and low noise MMIC for 10GHz multifunction frequency syntheses and modulations using advanced SiGe technology. The architecture includes an ultrahigh-speed direct digital synthesizer (DDS) with a maximum clock frequency of 10~12GHz to synthesize and modulate the intermediate frequency (IF) of 1GHz and above. It uses a low-noise phase lock loop (PLL) ...

The goal of the BRAMS effort is to develop a Blood Reserve Availability Assessment, Tracking, and Management System that will supplement the Joint Medical Asset Repository (JMAR) by allowing users to manually enter data via a web-based system. The BRAMS Phase I effort successfully developed a web interface for collecting blood data and exporting that blood data to JMAR in the format specified by ...

The objective of the proposed effort is to develop an ATLAS (Army Transformation in Logistics And Sustainment) environment that provides a unified modeling and experimentation framework for assessing current and future combat systems maintenance concepts, maintenance manpower and capacity planning and soldier load / effectiveness with simulation, tradeoff analysis, data-mining analytics and optimi ...

Blood loss due to uncontrolled hemorrhage is a major contribution to at least 90% of the combat death before reaching the field hospital. The ability to control heavy bleeding in the injured soldier is critical and will vastly improve the survival outcome in the theater. Furthermore, complications from uncontrolled bleeding in the microvasculature contribute significantly to increased morbidity. ...

Genex Technologies, Inc. proposes in this SBIR Phase II effort to design, prototype, and test a novel low-cost, low-power, miniature, manually deployable image sensor network that we have dubbed “D-STUDS™ (Disposable Small Tactical Ubiquitous Detection Sensors™)”. D-STUDS will be able to provide both visible and near infrared (NIR) video surveillance for all day/night/weather operations. ...

This Phase II SBIR proposal aims to develop a multidimensional protein separation platform based on polymer microfluidics technology which will be capable of mapping a wide range of post-translational modifications (PTMs) in complex protein samples. The proposed system employs three separation dimensions, namely: IEF, SDS gel electrophoresis, and MALDI-MS. The platform will combine IEF and SDS gel ...

Because many chemical and biological toxins selectively target respiratory endothelial cells, a biosensor using these cells in combination with Electric Cell-substrate Impedance Sensing (ECIS) technology has many useful applications for detection and early warning monitoring of a broad range of toxic agents. In the Phase I SBIR program, Agave BioSystems was highly successful in demonstrating that ...