Award Data

ACTA Incorporated and Sandia National Laboratories propose a seven month STTR Phase I project to demonstrate the feasibility of developing an automated simulation of aircraft structural joints in structural analysis models. The technical approach includes an expert system executive to create detailed models of abstracted joint components including interfacing structural components, fasteners and ...

Our long-term objective of this project is to develop an integrated system that is capable of categorizing and managing injured combatants in the field of combat trauma care. In this STTR, however, we focus on developing suitable imaging systems that can triage the combatants who are salvageable, assess their immediate potential head and spine injury and determine those with unstable spine injuri ...

Experimental and computational studies have indicated the benefits of fish swimming propulsion for efficiency and fast maneuvering capability. The biological paradigm of using unsteady body motion to generate and manipulate flow vorticity for desired hydrodynamic thrust marks a shift from the quasi-steady treatments used in practice for the engineering of vehicle hydrodynamics. A key component to ...

This Phase I STTR project will develop an innovative aerosol-based decontamination product effective against common nosocomial organisms. Nosocomial transmission of multi-drug-resistant microorganisms is an increasing concern at military and civilian healthcare facilities. The proposed project focuses on the development of an easily dispersed, nontoxic product capable of providing the rapid decont ...

This STTR Phase I project is designed to develop a novel process for fabricating a nano-grained ceramic material for infrared windows. The proposed STTR builds upon our previous Phase I (Navy) SBIR experience to minimize risks and maximize the likelihood of success. This proposed work will utilize an innovative method to fabricate nanocrystalline alumina infrared window materials with significantl ...

The enhanced capability point bio and chem sensor is based respectively on the recently discovered phenomenology of biological aerosol differential backscatter in the long wave infrared proven in field trials with a standoff sensor and on differential absorption. The novel point sensor will use compact, wavelength agile transmitters, including quantum cascade lasers and/or miniature CO2 lasers ope ...

The development of early detection methods to aid in the identification of virulent infectious pathogens is of strategic importance so that exposed warfighters and other individuals can be treated early or appropriately quarantined. We are currently developing a nucleic acid-based assay that can selectively and sensitively detect and quantify the RNA or DNA specific to a broad range of pathogens i ...

The overall objective of this STTR project is to develop a comprehensive CAD environment for design and optimization of antennas and arrays on complex platforms such as topsides of naval surface combatants. EMAG Technologies Inc. has teamed up with the University of Michigan to develop a novel solution for genetic algorithm based placement of antennas on such platforms. The proposed solution invol ...

The objective of this proposal is to isolate drugs that will enhance human physical and cognitive performance and resilience to trauma through enhancement of mitochondrial function. The significance of this opportunity is to reduce biological constraints on the modern army. Smaller, faster-moving fighting forces are constrained by physical endurance, which in turn is directly related to number and ...

The main objective of this proposal is to develop ultra low drive voltage, low insertion loss, and high bandwidth modulators. This will be achieved using substrate removed optical nanowires. This new phase modulator design and fabrication platform will be combined with existing techniques for achieving the required high bandwidth and high efficiency operation, such as traveling wave electrode desi ...