Robotics

Unmanned Underwater Vehicle to operate from the torpedo tubes of U.S. Navy Submarines

Unmanned Underwater Vehicle to operate from the torpedo tubes of U.S. Navy Submarines
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An LMRS system consists of two 20-foot long unmanned underwater vehicles a 60-foot robotic recovery arm onboard handling equipment support electronics a shore-based depot and a special van to transport the vehicle.
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An LMRS system consists of two 20-foot long unmanned underwater vehicles a 60-foot robotic recovery arm onboard handling equipment support electronics a shore-based depot and a special van to transport the vehicle.
The Long-term Mine Reconnaissance System (LMRS) is a submarine-based mine reconnaissance system that will incorporate an unmanned underwater vehicle which will be launched and retrieved through submarine torpedo tubes.
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The Long-term Mine Reconnaissance System (LMRS) is a submarine-based mine reconnaissance system that will incorporate an unmanned underwater vehicle which will be launched and retrieved through submarine torpedo tubes.
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April 6, 2006 We’ve all held our breath in the movies as the submarine with the good guys in it slides between the mines, touching a chain here and there to heighten the drama. In the future, that scenario will need to be rewritten as it’s likely that an unmanned underwater vehicle (UUV) will be fired from the torpedo tubes well in advance of a minefield and scope out exactly where the mines are. Make that the not-too-distant future because Boeing is already into a second round of at-sea tests of its Long-term Mine Reconnaissance System (LMRS). The LMRS is a 20-foot UUV designed to be launched, torpedo-style, from Los Angeles- and Virginia-class submarines and can survey the murky waters ahead for up to 60 hours. Originally planned for use in detecting tethered and bottom mines, the vehicle is designed to gather data and, upon completion, to home and dock to the submarine's 60-foot robotic arm for recovery back through the torpedo launch tube, enabling operators to retrieve data collected and prepare the vehicle for another launch. The vehicle's intelligence gathering capabilities have been sequentially tested and validated.

Most recently, repeated homing tests were conducted with slightly varied configurations to the LMRS vehicle. The tests concluded with an LMRS vehicle successfully docking with the submarine.

"We proved that it is possible for a heavyweight-class UUV to autonomously perform complex manoeuvres, overcome hydrodynamic forces and successfully dock to a submarine while both are underway," said Tom Jones, director of Marine Systems, the program area of Boeing Space and Intelligence Systems that is under contract to the U.S. Navy for the LMRS system. "No other UUV has been put through the strenuous test conditions or achieved the level of autonomy of the Boeing LMRS vehicle."

During the first series of tests conducted in September 2005, the LMRS successfully performed a full impulse launch, transited away to a station-keeping location and trailed the submarine. It was then commanded to the surface for recovery.

"Our advanced acoustic and autonomous control technologies are pivotal to the operation of the LMRS vehicle," Jones said. "The vehicle's forward-looking sonar, used for obstacle avoidance, tracking and mine-like object recognition, has been successfully demonstrated. We've also successfully demonstrated submarine-to-UUV commands as well as the performance of the LMRS sonar system as it homes in on the submarine during the final approach to the submarine's recovery arm."

The LMRS is another component of the integrated battlespace, a fully integrated network-centric information system that consolidates relevant data so that decision makers can mobilize, respond, and act decisively.

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