Award Data

The goal of this program is to develop a one-size-fits-many solution for implantable, wireless recording and stimulation with a variety of implantable electrode array types for neuroscience and neuroprosthesis research.The implants in this program will be enclosed in hermetic, ceramic packages with feed-throughs to accommodate up to 32 electrodes for each implant.The implants will be powered via i ...

In the Phase I research, our business will develop a preliminary Data Architecture, data model, and other architectural artifacts for a Big Data solution to manage Ballistic Missile Defense System (BMDS) System of Systems and related simulation data. The prime contractor of Objective Simulation Framework (OSF) will provide BMDS subject matter expertise and knowledge of existing systems and proces ...

This Small Business Innovation Research Phase I proposal will demonstrate the feasibility of an ultra-low power radio frequency (RF) field sensor based on novel magnetic tunnel junction (MTJ) technology. The sensor will be comprised of an MTJ sensing element that, when placed in a component or system, will monitor for perturbations in the ambient RF field profile during various stages of operatio ...

ABSTRACT:Minnesota Wire proposes to research and develop lightweight aerospace electrical conductors for electrical cables utilizing CNT, conductive metal coatings, and with applicable processes for chemically and mechanically fabricating these components. Substitution of legacy metals with these composite conductors will reduce weight and possibly reduce failure related to exposure, stress, strai ...

ABSTRACT:This Small Business Innovation Research Phase I project, Modeling Tools for the Machining of Ceramic Matrix Composites (CMCs), will develop and demonstrate the feasibility of physics-based modeling tools applied to the machining of ceramic matrix composites (CMC) the Air Force needs to machine critical CMC turbine components faster, more accurately, and with lower cost. At the program con ...

ABSTRACT:The need for a natural language query capability for DoD regulations is identified. A technical solution based on artificial intelligence, cognitive computing, and natural language query technology is presented. In Phase I, various techniques will be investigated, and one or more solutions will be developed and tested. In Phase II, the down-selected technologies will be refined and built- ...

ABSTRACT: We will develop a multiscale molecular dynamics/material point method (MD/MPM) methodology for determining the response of PBXs to a wide range of loading conditions as a function of mesoscale structure with emphasis on accurate representation of interfacial physics. The initial material of choice will be HMX + DOA plasticized HTPB binder. Velocity-dependent grain-grain and viscoelastic ...

ABSTRACT: Elimination of the cold chain is of vital importance for the ability to treat injured warfighters in the field and behind enemy lines. The application of an already FDA approved reagent for the stabilization of labile reagents will allow for minimal development time delaying the fielding of a new technology to fill this role. Collagen has been used extensively since the 1980s as an appro ...

3DSIM will provide a solution to additive manufacturing’s lack of efficient, composable physics-based computational frameworks to predict quality and performance for arbitrary geometry, orientation, location and process parameter combinations. A new set of composable computational tools capable of accurately predicting the geometrical accuracy, residual stress and microstructure of the parts mad ...

This project focuses on developing a magnetic resonance imaging (MRI) contrast agent that may increase the detection of tagged cells by a factor of 10-100. The ability to noninvasively track specifically labeled (tagged) cells, enables a researcher or medical treatment professional to dynamically monitor the delivery and targeted application of medicinal and bio-reactive agents.