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An acoustically controlled tetherless underwater vehicle for installation and maintenance of neutrino detectors in the deep ocean
Author(s) -
P. Ballou
Publication year - 1997
Language(s) - English
Resource type - Reports
DOI - 10.2172/765440
Subject(s) - underwater , detector , hydrophone , telemetry , installation , remotely operated vehicle , computer science , acoustics , underwater acoustic communication , marine engineering , real time computing , engineering , simulation , telecommunications , geology , aerospace engineering , physics , mechanical engineering , oceanography
The task of installing and servicing high energy neutrino detectors in the deep ocean from a surface support vessel is problematic using conventional tethered systems. An array of multiple detector strings rising 500 m from the ocean floor, and forming a grid with 50 m spacing between the strings, presents a substantial entanglement hazard for equipment cables deployed from the surface. Such tasks may be accomplished with fewer risks using a tetherless underwater remotely operated vehicle that has a local acoustic telemetry link to send control commands and sensor data between the vehicle and a stationary hydrophone suspended above or just outside the perimeter of the work site. The Phase I effort involves the development of an underwater acoustic telemetry link for vehicle control and sensor feedback, the evaluation of video compression methods for real-time acoustic transmission of video through the water, and the defining of local control routines on board the vehicle to allow it to perform certain basic maneuvering tasks autonomously, or to initiate a self-rescue if the acoustic control link should be lost. In Phase II, a prototype tetherless vehicle system will be designed and constructed to demonstrate the ability to install cable interconnections within a detector array at 4 km depth. The same control technology could be used with a larger more powerful vehicle to maneuver the detector strings into desired positions as they are being lowered to the ocean floor

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