An Application of Ocean Wave-Current Refraction to the Gulf Stream Using SEASAT SAR Data

Abstract

When ocean waves in deep water interact with a current, the direction of propagation and characteristics of the waves such as height and length are affected. Swell in the open ocean can undergo significant refraction as it passes through major current systems like the Gulf Stream or Antarctic Circumpolar Current. Remote sensing techniques such as synthetic aperture radars (SAR) have the potential to detect wave systems over a wide geographical area. Combining a model for wave refraction in the presence of currents with SAR measurements, the inverse problem of using the measured wave data can be solved to determine the direction and magnitude of the intervening currents. In this study the behavior of swell measured by SAR on a satellite pass over the Gulf Stream is examined. The refraction predicted by a numerical model under conditions of varying current profiles and velocities is compared to SAR generated wave spectra. By matching the current profile which results in the best correlation of wave refraction to the SAR data, the tomographic problem of measuring the Gulf Stream current is solved. Keywords: Theses.

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Document Details

Document Type
Technical Report
Publication Date
Aug 01, 1989
Accession Number
ADA216769

Entities

People

  • Michael W. Byman

Organizations

  • Naval Postgraduate School

Tags

Communities of Interest

  • Energy and Power Technologies
  • Sensors
  • Space

DTIC Thesaurus Topics

  • Case Studies
  • Deep Water
  • Diffraction
  • Doppler Effect
  • Fluid Mechanics
  • Group Velocity
  • Gulf Stream
  • Inverse Problems
  • Ocean Waves
  • Oceans
  • Remote Sensing
  • Ridges
  • Synthetic Aperture Radar
  • Topography
  • Wave Power
  • Wave Propagation
  • Waves

Readers

  • Coastal Oceanography
  • Oceanography.
  • Radar Systems Engineering.

Technology Areas

  • Space
  • Space - Space Objects