A Shallow-Water Swath Bathymetry System

Abstract

LONG-TERM GOAL. Our long-term goal is to understand the processes which create and modify the sea bed in the coastal zone and to understand how seabed morphology can be studied using high-resolution swath mapping techniques (for bathymetry and backscatter). OBJECTIVES. Swath-mapping techniques have proven extremely valuable to the study of sea-floor morphology on continental shelves, slopes and margins, mid-ocean ridges and in the deep ocean, but systems designed for continental shelf and deeper-water environments are not optimized for the shallow-water of coastal settings. Swath-mapping systems optimum for shallow water have recently become available; however, until our system became operational in late 1998 no shallow-water system existed in the U.S. academic community for use in research programs. Our objective is to fill this critical gap by obtaining, installing and using a research-grade shallow-water swath bathymetry system that can be moved between vessels as required. This kind of high-resolution morphological data will contribute to ONR programs in the coastal zone such as STRATAFORM and SAX99. APPROACH. We are building a shallow-water swath bathymetry system designed around a Kongsberg Simrad EM 3000 multibeam echosounder which can operate in water depths of 0.5 to over 100 m. Other major system components include a TSS POS/MV (navigation and attitude), Sun and SGI computers (data processing and display), gyroscope (heading), CTD (sound velocity structure) and tide gauge (water level). The EM 3000 is a research-grade shallow-water multibeam echosounder that operates at 300 kHz and creates echosounding beams with nominal widths of 1.5 deg.

Document Details

Document Type

Technical Report

Publication Date

Sep 30, 1999

Accession Number

ADA629800

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