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Measuring sand wave migration in the field. Comparison of different data sources and an error analysis

Measuring sand wave migration in the field. Comparison of different data sources and an error analysis
Measuring sand wave migration in the field. Comparison of different data sources and an error analysis
Migration of offshore seabed waves is hard to measure due to the low migration rates and large measurement errors. Here, sand wave migration rates are determined from the change in the crest position deduced from bathymetric echo-sounding data. The crests are identified as local extremes in a bathymetric profile, after low-pass filtering. This approach is applied to profiles along a pipeline and to 2-dimensional data. A consistent migration rate of several meters per year is found. The accuracy of the estimates is analyzed using markers. The noise in the bed level data is small and does not affect the results, but the errors in the positioning system cause significant errors in the estimates rates. An increase of either the number of surveys or the observation period reduces these errors
152-159
American Geophysical Union
Knaapen, M. A. F.
6a412efa-c285-4af3-8f07-1182f06faa58
Hulscher, S.J.M.H.
Garlan, T.
Idier, D.
Knaapen, M. A. F.
6a412efa-c285-4af3-8f07-1182f06faa58
Hulscher, S.J.M.H.
Garlan, T.
Idier, D.

Knaapen, M. A. F. (2005) Measuring sand wave migration in the field. Comparison of different data sources and an error analysis. Hulscher, S.J.M.H., Garlan, T. and Idier, D. (eds.) In Proceedings of Marine Sandwave and River Dune Dynamics. American Geophysical Union. pp. 152-159 .

Record type: Conference or Workshop Item (Paper)

Abstract

Migration of offshore seabed waves is hard to measure due to the low migration rates and large measurement errors. Here, sand wave migration rates are determined from the change in the crest position deduced from bathymetric echo-sounding data. The crests are identified as local extremes in a bathymetric profile, after low-pass filtering. This approach is applied to profiles along a pipeline and to 2-dimensional data. A consistent migration rate of several meters per year is found. The accuracy of the estimates is analyzed using markers. The noise in the bed level data is small and does not affect the results, but the errors in the positioning system cause significant errors in the estimates rates. An increase of either the number of surveys or the observation period reduces these errors

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More information

Published date: 2005
Venue - Dates: Marine Sandwave and River Dune Dynamics, Enschede, Netherlands, 2005-01-01

Identifiers

Local EPrints ID: 75785
URI: http://eprints.soton.ac.uk/id/eprint/75785
PURE UUID: f2ae5673-5168-4f67-82ff-f8e2cf6df7ad

Catalogue record

Date deposited: 11 Mar 2010
Last modified: 10 Dec 2021 16:58

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Contributors

Author: M. A. F. Knaapen
Editor: S.J.M.H. Hulscher
Editor: T. Garlan
Editor: D. Idier

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