Award Data

Infrared (IR) windows operating in the environment experienced by endo-atmospheric interceptors are limited in performance by the high heat fluxes, temperatures, and pressures characteristic of these environments. Window temperature can exceed 900 C from exposure to the high heat fluxes and temperatures associated with hypersonic flight. Existing materials are limited by poor mechanical and optica ...

This project will develop a new scientific instrument optimized for the advanced characterization of near-infrared fluorescent nanoparticles that can exist as left- or right-handed structures (enantiomers). Single-walled carbon nanotubes (SWCNTs) are the leading current example of such nanomaterials. Applied NanoFluorescence, LLC (ANF) proposes a novel multi-mode chiroptical spectrometer that can ...

NOAA is pursuing sustained, in-situ sensing technology to support improved atmospheric modeling of the upper ocean boundary environment, including the air-sea interface, during turbulent storms. Improved atmospheric modeling in this critical region will lead to better forecasting and support NOAA's mandate to protect property and save lives. Small, unmanned aircraft, equipped with atmospheric sens ...

The S‐100 specification is a new geospatial standard for hydrographic data, that is presently under development by the International Hydrographic Organization (IHO). Once the S‐100 based products and services are fully developed by the IHO, current datasets will be scheduled for obsolescence, and the Hydrographic Offices (HOs) will no longer produce them. Companies offering e‐navigation solu ...

In this Phase II effort, PEMDAS Technologies and Innovations (PEMDAS), in collaboration with subcontractor Westover Studios, proposes to develop a functional prototype of the Weather “Action Chain” Enabler (ACE) application using the technologies identified, knowledge gained, and preliminary design conceived during the Phase I effort. As designed, the Weather ACE application will be a non-intr ...

Based on the results of our Phase I work, one significant barrier to optimizing battery performance lies in understanding the relationship between bulk solids and particle flow properties and the flow into the die. Our hypothesis: an increase in quality batteries production can be achieved if powder preparation process can be optimized and the die filling process controlled. We feel that control o ...

High Speed Missile to Missile Communications. Approved for Public Release | 19-MDA-9932 (21 Feb 19)

Through its Phase I MDA SBIR program, NanoSonic designed and empirically optimized next-generation polymer derived ceramic thermal protection systems with tailored radio frequency (RF) transparency for missile structures. High temperature flame impingement testing revealed optimized TPS materials readily endured 1,000 C flame impingement for over 60-minutes while preserving the integrity and RF re ...

The Resource Utilization Prediction/Planning Analysts' Resource Tool (RUPART) described in this proposal offers the benefits of improved simulation integration capabilities through identification of potential simulation bottlenecks in the message processing either at the system level and/or at the hardware and network levels before the simulation is even run. This will give system integrators and ...

A significant weight reduction on missile platforms could increase maneuverability of the payload and allow more capable payloads. High temperature composite materials offer the means by which low cost and lighter weight missile structures can be achieved. Approved for Public Release 19-MDA-10203 (4 Sep 19)