Award Data

The widespread use of communication devices and radar systems has made our society increasingly vulnerable to disruptive, high-power, short pulse electromagnetic interference (EMI) and high power microwaves (HPM). Significant advances in devices that produce these high-power, short pulses have been made in the US and abroad in the past few decades. As a result, the need for devices that can prot ...

Accurate Automation Corporation’s main objective of the SENTINEL SYSTEM is to provide a 24/7 presence on the water without putting valuable human resources in harm’s way. Capable of being controlled remotely or configured for autonomous operation, the SENTINEL SYSTEM is an attractive solution to a range of marine applications. The SENTINEL can interdict threats in the maritime and littoral ...

Accurate Automation Corporation (AAC) will address the integral operation of a USV with multiple UAVs. Such a system leverages the advantages of both platforms while compensating for the limitations of each. The USV provides range and endurance, deploying the UAVs across a long distance or after long periods on station. The USV also provides sensor coverage of the underwater environment, of whi ...

The Significant Optical Manufacturing Advancement (SOMA) program will capture the principles of Design for Assembly (DFA) and apply them to the fabrication of precision optical systems. This will provide the Navy with the ability to design optical systems that can be assembled efficiently for much lower costs. We will use the DFA discipline of axiomatic design coupled with optical design equations ...

The military’s recognition of the need to share battlefield intelligence between all branches of the armed services has led to the development of the Joint Fires Network (JFN). In JFN, intelligence data from the many sensors deployed must be assimilated for targeting information. Computers perform some of these operations while people perform others. The bottom line is that there are massive ...

DNA microarray technology, in combination with statistical and predictive modeling tools, could be used to evaluate thousands of genes against distinct gene expression patterns induced by chemical/biological agents to provide early identification and speed therapeutic intervention. The overall objective of this Phase II effort is to leverage existing public domain resources and commercial tools t ...

In high F/A military gas turbine combustors such as JSF, localized pockets of carbon monoxide and hydrogen can exit the combustor, causing severe cooling challenges for designers of turbine inlet guide vanes. Instead of cooling the vane, cooling air can interact with the hotpath flow to release heat near the vane surface, resulting in durability challenges and possibly catastrophic damage. In this ...

CFDRC has completed preliminary design of a next generation Ram Air Turbine (RAT) suitable for operation in the Navy’s next generation electronic warfare pod. The RAT will be capable of delivering 60 KVA at a sea level flight speed of 280 knots. The unit will also be capable of providing adequate liquid coolant to maintain electronic component operating temperatures below specified levels. Du ...

Combustor Lean BlowOut (LBO) is a significant challenge in modern military gas turbine combustors. LBO can occur either during rapid engine deceleration or during operation at idle conditions with water/steam ingestion. Current practice is to design adequate safety margins to avoid the onset of blowout. However, significant engine performance improvements can be realized though the development o ...

The overall objective of this project is to develop a system-level prognostic modeling tool for predictions of the spread of chemical/biological agents in shipboard air systems. The intent is to integrate the tool with existing DC systems. The proposed system will be modeled as a set of interacting software components coupled through a simulation environment. To achieve execution speed and accurac ...