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SBC: Photonic Systems, Inc. Topic: N10AT017
In this STTR program, Photonic Systems Inc. and Prof. Jacob Khurgin at Johns Hopkins University propose novel optical external and internal fiber cooling approaches to efficiently cool the high power GaN microwave amplifier. The external cooler is a single end, square-shape, Yb:ZLAN fiber with high reflection (HR) coated surface which can attach to the amplifier surface and create a cold spot at t ...STTR Phase I 2010 Department of DefenseNavy
SBC: CHARLES RIVER ANALYTICS, INC. Topic: N10AT038
Future naval operations are expected to make extensive use of unmanned vehicles to support a range of operations, including intelligence gathering, mine warfare, force protection, and anti-submarine warfare. Current unmanned systems are typically controlled remotely by an operator who directly manipulates a control interface for the vehicle. The effectiveness of this approach is obviously limited ...STTR Phase I 2010 Department of DefenseNavy
Impedance-based Sensing Optimization & Algorithms for Visualization of Ship Hull Structural Health Monitoring DataSBC: METIS DESIGN CORP Topic: N10AT042
The implementation of structural health monitoring (SHM) systems into naval applications has been hindered due to component quantity, including sensors, power/communication cables, and acquisition/computation units, as well as data quality. Particularly for large-area applications such ship hulls, complexity of implied system infrastructure can be impractical, and data can be worthless with attenu ...STTR Phase I 2010 Department of DefenseNavy
SBC: SI2 TECHNOLOGIES, INC Topic: N10AT021
SI2 Technologies, Inc. (SI2) proposes an innovative solution to the Navy’s need for wideband antennas to support naval ships and Marine Corps’ vehicle communications, electronic warfare (EW), and radar functions. SI2 will develop efficient, broadband, metamaterial antennas for operation in the VHF-UHF frequency range. These antennas will initially be designed for integration with the composite ...STTR Phase I 2010 Department of DefenseNavy
SBC: APPLIED NANOTECH, INC. Topic: N10AT031
The promise of printed electronics can not be realized without high-speed manufacturing processes to drive the cost down for wide spread distribution. This proposal will outline the key points for rapid manufacturing of new electronic devices and systems and make recommendations for making them a reality. There are two main focus areas that encompass all the limitations to printed integrated circu ...STTR Phase I 2010 Department of DefenseNavy
SBC: BUSEK CO., INC. Topic: N10AT023
Busek Co. Inc (Busek) and Massachusetts Institute of Technology (MIT) propose to develop the design of a photon actuated, ultrafast carbon nanotube (CNT) field emission cathodes for high-power electron beam accelerator sources. The cathode will be based on massive arrays of Vertically Aligned Carbon Nano-Fibers (VA-CNFs) that are individually controlled by a vertical ungated field effect transisto ...STTR Phase I 2010 Department of DefenseNavy
SBC: TDA RESEARCH, INC. Topic: N10AT025
Electromagnetic launchers or rail guns are a key component of the Navy’s all-electric ship of the future, but they lack the durability required for repeated firings. TDA Research and the University of Nevada, Reno (UNR) are developing a tough, durable and conductive refractory metal coating that will protect the copper alloy conductors (rails) from the extreme heat and wear conditions inside the ...STTR Phase I 2010 Department of DefenseNavy
SBC: PHYSICAL SCIENCES INC. Topic: N10AT015
Physical Sciences Inc. (PSI), in partnership with the Electrical Engineering Department of the Worcester Polytechnic Institute (WPI), proposes to compute and reduce mutual coupling between E-field antennas (in Transmit mode) and SQUIDs magnetic loops (in Receive mode) for improved signal reception in SQIF arrays. For the computation of the mutual coupling in the near field PSI and WPI will use an ...STTR Phase I 2010 Department of DefenseNavy
SBC: APTIMA INC Topic: N08T005
Vertical short takeoff and landing (VSTOL) operators face numerous challenges, particularly during takeoff, hover, and landing operations. Threats take the form of power lines, structures, and—in the case of combat—enemy fire. Often, these threats are obscured when visibility is compromised by dust, sand, or snow. Maintaining awareness of the surrounding environment becomes almost impossible. ...STTR Phase II 2010 Department of DefenseNavy
SBC: Intelligent Automation, Inc. Topic: N10AT006
The key innovation of this proposal is to develop an adaptive and scalable network resource virtualization framework. The framework employs simple yet efficient mechanisms to deliver a comprehensive network resource virtualization solution through network virtualization, service discovery/advertisement, and service differentiation in mobile ad hoc networks (MANETs). It uses local caching to facili ...STTR Phase I 2010 Department of DefenseNavy