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Hydrographic Doppler Sonar System (HDSS): Acoustic ocean current profiling data from the R/V Revelle

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Hydrographic Doppler Sonar System (HDSS): Acoustic ocean current profiling data from the R/V Revelle

About this collection

Extent

60 digital objects.

Cite This Work

Pinkel, Robert; Goldin, Michael; Bui, Mai; Nguyen, San; Sun, Oliver; Waterhouse, Amy F.; Alford, Matthew H.; MacKinnon, Jennifer A.; Klymak, Jody (2020). Hydrographic Doppler Sonar System (HDSS): Acoustic ocean current profiling data from the R/V Revelle. UC San Diego Library Digital Collections. https://doi.org/10.6075/J07W69MN

Description

The Hydrographic Doppler Sonar System (HDSS) on the R/V Revelle provides profiles of absolute ocean current and acoustic scattering strength in support of scientific operations. The HDSS consists of a 50 kHz Doppler sonar which returns data in a depth range between 20 m and 700-1100 m (depending on conditions), and a 140 kHz Doppler sonar which returns data in a depth range between 20 m and 150-350 m (depending on conditions). The system was created to provide measurements with higher depth resolution than is available from commercial Doppler sonars. Both the acoustic pulse length and the angular width of an acoustic beam affect depth resolution. HDSS uses large transducers to get narrower beams and greater power to get greater range without sacrificing vertical resolution.

Just as ocean bathymetry is routinely collected from research vessels, the HDSS has the parallel tasks of monitoring ocean currents and acoustic scattering wherever the R/V Revelle sails, while simultaneously supporting individual science missions. The established policy is to have the system running and recording data at all times that the ship is underway, unless restricted by political regulation or acoustic interference.

Date Collected
  • 2006 to 2017
Date Issued
  • 2020
Principal Investigator
Researchers
Contributors
Vessel
Engineers
Laboratory
Note

Inquiries on any aspect of the HDSS data should be directed to Amy F. Waterhouse (awaterhouse@ucsd.edu) or San Nguyen (stn004@ucsd.edu) from the Multiscale Ocean Dynamics group.

Funding

National Science Foundation (U.S.)

Office of Naval Research

Topics
Language
  • No linguistic content; Not applicable
Identifier

Identifier: Amy F. Waterhouse: https://orcid.org/0000-0003-2264-9831

Identifier: Jennifer A. MacKinnon: https://orcid.org/0000-0002-7690-1185

Identifier: Jody Klymak: http://orcid.org/0000-0003-4612-8600

Doi: https://doi.org/10.6075/J07W69MN

Related Resources

    Primary associated publication

    • Alford, M.H., J.A. MacKinnon, R. Pinkel, and J.M. Klymak, 2017: Space–Time Scales of Shear in the North Pacific. J. Phys. Oceanogr., 47, 2455–2478. https://doi.org/10.1175/JPO-D-17-0087.1
    • MacKinnon, J.A., M.H. Alford, R. Pinkel, J. Klymak, and Z. Zhao, 2013: The Latitudinal Dependence of Shear and Mixing in the Pacific Transiting the Critical Latitude for PSI. J. Phys. Oceanogr., 43, 3–16. https://doi.org/10.1175/JPO-D-11-0107.1
    • R. Pinkel, 2016, A brief review of Doppler sonar development at Scripps, Methods in Oceanography 17 (2016) 252–263. https://doi.org/10.1016/j.mio.2016.09.009
    • Waterhouse, A.F., J.A. MacKinnon, J.D. Nash, M.H. Alford, E. Kunze, H.L. Simmons, K.L. Polzin, L.C. St. Laurent, O.M. Sun, R. Pinkel, L.D. Talley, C.B. Whalen, T.N. Huussen, G.S. Carter, I. Fer, S. Waterman, A.C. Naveira Garabato, T.B. Sanford, and C.M. Lee, 2014: Global Patterns of Diapycnal Mixing from Measurements of the Turbulent Dissipation Rate. J. Phys. Oceanogr., 44, 1854–1872. https://doi.org/10.1175/JPO-D-13-0104.1

    Reference

    • Pinkel, R., 2012: Velocity Imprecision in Finite-Beamwidth Shipboard Doppler Sonar: A First-Generation Correction Algorithm. J. Atmospheric and Oceanic Technology, Vol. 29, 1569–1580. https://doi.org/10.1175/JTECH-D-12-00041.1

    Other resource

    Collection image

    • Image source: San Nguyen.