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Unmanned Underwater Vehicles

Unmanned underwater vehicle Underwater unexploded ordnance Ultraviolet Unexploded bomb(s)... [Pg.329]

Because they are very quiet, and because they are inherently more efficient than diesel or other i.c. power plants, fuel cells have long been regarded by the navies of the United States, Germany, Canada, Australia, and Sweden as an attractive means of propelling small submersibles (such as unmanned underwater vehicles used for marine research, pipeline repair, salvage, and exploration), and even full-size submarines. [Pg.276]

The U.S. Navy performed field tests which successfully demonstrated that an underwater version of the Nomadics sensor can detect a plume of TNT in real-time in the ocean over 100 metres from its source. In these tests, the SeaPup sensor was integrated with the REMUS (Remote Environmental Monitoring UnitS) unmanned underwater vehicle (Figure 6) and deployed in a series of successful missions in the Atlantic Ocean. [Pg.128]

Figure 5. Electrochemical explosive sensor mounted on the Unmanned Underwater Vehicle (UUV). Figure 5. Electrochemical explosive sensor mounted on the Unmanned Underwater Vehicle (UUV).
Cai Q, Brett D J L, Browning D and Brandon N P, A sizing-design methodology for hybrid fuel cell power systems and its application to an unmanned underwater vehicle . Journal of Power Sources, 2010,195,6559-6569. [Pg.38]

Applications Aircraft, military communications, robotics, unmanned underwater vehicles (UUVs). [Pg.292]

A UMS may be mobile or stationary, and includes the vehicle/device and its associated control station. UMSs include, but are not limited to UGVs, UASs, unmanned underwater vehicles, unmanned surface vessels, and unattended systems. Missiles, rockets, submunitions, and artillery are not considered UMSs. [Pg.443]

UUVS (Specialist Exhibition and Conference Showcasing Unmanned Underwater Vehicles for Commercial, Defence and Science Sectors Southampton, UK)... [Pg.227]

Souza, E., Maruyama, N. (2002). An investigation of dynamic positioning strategies for unmanned underwater vehicles. In Proceedings of the XIV Congresso Brasileiro de Automdtica, XIV Congresso Brasileiro de Automdtica, (pp. 1273-1278). Natal, Brazil Federal University of Rio Grande do Norte. [Pg.201]

Hasvold, 0., Johansen, K.H., Mollestad, O., Forseth, S. and Storkersen, N. (1999) The alkaline aluminum/hydrogen peroxide power source in the Hugin II unmanned underwater vehicle. J. Power Sour. 80, 254-260. [Pg.191]


See other pages where Unmanned Underwater Vehicles is mentioned: [Pg.12]    [Pg.41]    [Pg.99]    [Pg.135]    [Pg.158]    [Pg.159]    [Pg.113]    [Pg.227]    [Pg.393]    [Pg.1238]    [Pg.465]    [Pg.505]    [Pg.384]    [Pg.306]    [Pg.165]   
See also in sourсe #XX -- [ Pg.187 ]




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