Multiple beam generation with a digital computer for echosounding at low and high frequencies
Publication date
1980-04-23
Authors
Slootweg, A.P.
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DOI
Document Type
Dissertation
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Abstract
The fact that the velocity of sound in (sea)water does not vary much enables
us to determine through ray theory the direction from which underwater sound
is received. In the same manner the direction can be chosen in which underwater
sound is emitted. These principles are applied in echosounders for
hydrographic use (Glenn, 1970, Burke and Robson, 1975) sidelooking sonars
(Belderson, et al., 1972), sectorscanning sonar (Tucker, 1960, Ballard and
van Andel, 1977, Wolff, 1976) and imaging echosounders (Metherel et al.,
1969). The class of hydrographic echosounders can be divided into narrowbeam
systems and multi-beam systems. The former use an antenna, i.e. an array
of transducers, to generate a single beam with a small beamwidth, the latter
generate several beams with different azimuths.
Up to now the most sophisticated deep-sea multibeam echosounders (Sonarray
Subsystem, Glenn, 1970, and Seabeam, Renard et Allenou, 1979) generate simultaneously
beams with different azimuths, utilizing electronic circuits. These
beams lie in a plane perpendicular to the ship's track. In that way information
in three dimensions is gathered along one track, hence the name threee-dimensional
echosounders.
Keywords
echo sounding