Low Drag, Underwater Acoustic Source for Sea surface-based Mine Sweeping

Low Drag, Underwater Acoustic Source for Sea surface-based Mine Sweeping
Navy STTR FY2005

Sol No.:	Navy STTR FY2005
Topic No.:	N05-T029
Topic Title:	Low Drag, Underwater Acoustic Source for Sea surface-based Mine Sweeping
Proposal No.:	N054-029-0018
Firm:	LewTech Company, Inc. 7112 Nighthawk Drive Fort Wayne, Indiana 46835-9395
Contact:	George Lewis
Phone:	(260) 485-3752
Abstract:	The U.S. Navy desires the use of Unmanned Surface Vessels in littoral water regions for the mission of Mine Counter Measures. In particular, the use of the standard Navy Rigid Hull Inflatable Boats (RHIBs) for such a mission is desirable to decrease dependence on traditional, high operating cost assets, increase mission endurance and maneuverability and the removal of personnel from harm's way. However, these advantages can only be accomplished by providing a minesweeping approach that allows the RHIBs to adequately perform the required mission within its limited operational capability. The approach proposed is to use a low drag, towed acoustic transducer array that is easily deployable and recoverable and has the required source level and spectrum to detonate mines during the sweeping operation. The proposed approach will implement a proven electro-acoustic system approach using a multi-channel array of flexural disc transducers to cover the desired frequency band. Each channel will be independently driven by an appropriate signal generator, amplifier, matching network and power source. The array will be stabilized and depth controlled to accommodate various tow speeds up to 20 knots. The source level and generated signature could also be varied depending on the mission.
Benefits:	The program would establish enabling technology for future minesweeping or acoustic countermeasure concepts where a relatively low cost and possibly expendable, low drag and easily deployable approach are desired. Commercial applications would include: bottom topography, underwater exploration, marine mammal training and evaluation, underwater communication and other oceanographic applications.

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