Award Data

Bright Energy Storage Technologies and the Engines and Energy Conversion Laboratory at Colorado State University propose to demonstrate the feasibility of a custom reversible compressor design for use in compressed air energy storage systems. The design proposed combines a very lightweight rotary compressor design with extremely high flow volumes, allowing a highly efficient device at extremely lo ...

Each tactical radio uses a particular waveform that inhibits it from freely communicating with a radio on another network. There is a need for a flexible communication gateway that supports interoperability, and can automatically translate among a set of waveforms to transfer information across networks. In response to the need for a flexible gateway, MaXentric and The Cooper Union have partnered ...

As with all service branches within the Department of Defense (DoD), the mission objectives of the Navy are expanding to encompass not only major combat operations, but also asymmetric warfare scenarios. This expanding role requires the Navy to increasingly operate in littoral waters where effective identification of small craft and semi-submersibles is a critical capability for both fleet protect ...

This proposed program seeks to develop, demonstrate, and commercialize a versatile new computer modeling approach for simulating and assessing the operation state of the information space in information networks. Currently there is a lack of tools for assessing the administration and operation of information networks at a component level (i.e. the interaction of the networks, computers, and softw ...

An emitter detection and localization (EML) technique has been researched and developed that utilizes long-coherent integration. This technique enables EML over a broad range of emitter frequencies and signal types. The EML system is composed of sensor nodes and a processing center that carries out the bulk of the signal processing. Adaptive network bandwidth utilization is applied to make the sys ...

Structured Materials Industries, Inc. (SMI) with its partner, Drexel University, propose to build upon our Phase I success and continue the development of electrically contacted zinc oxide nanowire (NW) arrays for highly efficient solar blind UV sensors, and implement them in a packaged prototype product. The properties of ZnO make it a very promising material for optoelectronic devices. In partic ...

UAVs are carrying out missions which were once reserved to manned aircraft only. These missions require that the UAV carries more and more sophisticated equipment which consumes large amount of electric power. The power requirement vary, and sometime consist of both AC power with a fixed frequency, and high voltage DC power. As power requirement grow the need for an electrical power system which i ...

The Navy and the U.S. Military as a whole will be challenged to find innovative solutions to ever-rising peak power demands stemming from the introduction of electricity-driven vessels and new directed energy weapons in the coming decade. Circuit protection from voltage variation is also a concern both on large and miniaturized scales. To address these needs, ADA Technologies, Inc. (ADA), in colla ...

Modern supersonic jet aircraft engines produce a high amplitude noise field with complicated characteristics due to turbulent behaviors of the hot jet. Researchers need better understanding of the turbulent structures in the jet plume to develop treatments to engines that might reduce the noise emissions. A significant obstacle to making these simulations practical and realistic for engine design ...

Non-invasive methods are required to measure the turbulence in supersonic jet plumes in 3-D with high temporal and spatial resolutions. The turbulent supersonic jet plume changes rapidly both in space and time, and hence any viable approach must acquire the entire 3-D velocity field at even faster speed for comparison with the temporal and spatial velocity field solved in Large Eddy Simulations. ...