Íslenskar landbúnaðarrannsóknir

Íslenskar landbúnaðarrannsóknir - 01.09.1978, Side 137

ÍSL. LANDBÚN. j. agr. res. icel. 1978 10,2: 135-140 A new portable hydroacoustic data acquistition system Torfinn Lindem University of Oslo * and Edmund P. Nunnallee College of Fisheries, University of Washington, Seattle, Washington ABSTRACT An echosounder is described which meets the needs for stock assessments of the biologist and the fisheries manager. The unit incorporates calibration features which allow processing of the signals on a digital computer after they have been recorded on magnetic tape. Alternatively, signals can be analyzed on an oscilloscope. Weight of the sounder and transducer mounted in a fin is less than 15 kg. The power consumption is 24W at 12V. The unit is adapted for freshwater lakes and rivers but can equally well be deployed in the coastal and estuarine marine areas. INTRODUCTION The last decade has seen great progress toward quantiíication of hydroacoustic signals for assessment ofpelagic fish. Most systems, however, have been developed for use in the open sea; generally both their cost and weight prohibit a general use for assessment in freshwater lakes. However, a small, portable unit, de- veloped at the College of Fisheries at the University of Washington in Seattle (THORNEet al. 1972), has been deployed with great success in a number of sockeye salmon-producing lakes along the perimeter of the eastern part of the North Pacifíc Ocean, as well as in estuaries, large rivers, and other coastal areas. Basically the unit consists of: 1) a trans- ducer mounted in a surface towing veh- icle, 2) a battery operated echosounder, 3) a magnetic tape-or cassette recorder for storage of received signals, and 4) an os- cilloscope to monitor signals in the field (Fig. 1.) The towing vehicle for the transducer can be either of plywood, plastic, or aluminum. Experience has indicated that a narrow beam transducer with about a 10° angle down to the — 3 dB point works well for assessment of freshwater fish populations. In this particular case a Ross narrow-beam transducer was used. The first order of sidelobes is down — 17 dB and can be ignored. However, the unit has some serious limitations, such as no accu- rate TVG function, insuflficient dynamic range and a high power consumption.

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Íslenskar landbúnaðarrannsóknir

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