Korean Journal of Remote Sensing (대한원격탐사학회지)

Korean Society of Remote Sensing (대한원격탐사학회)
권호 표지
DOI QR코드

DOI QR Code

Estimation of Instantaneous Sea Level Using SAR Interferometry

  • Kim, Sang-Wan (Department of Earth System Sciences, Yonsei University) ;
  • Won, Joong-Sun (Department of Earth System Sciences, Yonsei University)
  • Published : 2002.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

Strong and coherent radar backscattering signals are observed over oyster sea farms that consist of artificial structures installed on the bottom. We successfully obtained 21 coherent interferograms from 11 JERS-1 SAR data sets even though orbital baselines (up to 2 km) or temporal baselines (up to 1 year) were relatively large. The coherent phases preserved in the sea farms are probably formed by double bouncing from sea surface and the sea farming structures, and consequently they are correlated with tide height (or instantaneous sea level). Phase unwrapping is required to restore the absolute sea level. We show that radar backscattering intensity is roughly correlated with the sea surface height, and utilize the fact to determine the wrapping counts. While the SAR image intensity gives a rough range of absolute sea level, the interferometric phases provide the detailed relative height variations within a limit of $2{\pi}$ (or 15.3 cm) with respect to the sea level at the moment of the master data acquisition. A combined estimation results in an instantaneous sea level. The radar measurements were verified using tide gauge records, and the results yielded a correlation coefficient of 0.96 with an r.m.s. error of 6.0 cm. The results demonstrate that radar interferometry is a promising approach to sea level measurement in the near coastal regions.

Keywords

References

  1. Nature v.404 Interferometric radar measurements of water level cahanges on the Amazon flood plain Alsdorf, D.E;J.M. Melack;T. Dunne;L.A.K Mertes;L.L. Hess;L.C. Smith
  2. IEEE Transactions on Geoscience and Remote Sensing v.39 no.2 Amazon Floodplain Water Level Changes Measured with Interferometric SIR-C Radar Alsdorf, D.E.;L.C. Smith;M. Melack
  3. Geophysical Research Letters v.28 no.14 Water Level Changes in a Large Amazon Lake Measured with Spaceborne Radar Interferometry and Altimetry Alsdorf, D.E.;C. Birkett;T. Dunne;J.M. Melack;L.L. Hess
  4. Proc. of the 2002 AIRSAR Earth Science Applications Workshop [CD-ROM] Interferometric SAR observations of water level changes: Potential targets for future repeat-pass AIRSAR mission Alsdorf, D.E.
  5. Geology v.27 no.6 Sensign the ups and downs of Las Vegas: InSAR reveals structural control of land subsidence and aquifersystem deformation Amelung, F.;D. L. Galloway;J. W. Bell;H. A. Zebker;R. J. Laczniak
  6. IEEE Transaction on Geoscience and Remote Sensing v.39 no.1 Permanent Scatterers in SAR Interferometry Ferretti, A.;C. Prati;F. Rocca
  7. Journal of Optical Society of America A v.14 no.10 Two-dimensional phase unwrapping with minimum weighted discontinuity Flynn, T.J.
  8. Korean Journal of Remote Sensing(Korean ed.) v.18 no.4 Characteristics of the SAR images and interferometric phase over oyster sea farming site Kim, S.W.;C.W. Lee;J.S. Won https://doi.org/10.7780/kjrs.2002.18.4.209
  9. Geophysical Research Letters Estimation of the subsidence rate of reclaimed coastal land using L-band SAR differential interferometry Kim, S.W.;C.W. Lee;J.S. Won;K.D.Min
  10. Review of Geophysics v.36 Radar interferometry and its application to changes in the earth's surface Massonnet D.;K.L Feigl
  11. Nature v.364 The displacement field of the Landers earthquake mapped by radar interferometry Massonnet E.;M. Rossi;C. Carmona;F. Adragna;G. Peltzer;K. Fiegl;T. Rabaute
  12. Sattllite oceanography Robinson, I.S.
  13. Geophysical Research Letters v.2 no.19 Near real-time radar interferometry of the Mw 7.1 Hector Mine Earthquake Sandwell, D.T.;L. Sichoix;D. Agnew;Y. Bock;J-B. Minster
  14. Int. J. Remote sensing v.18 no.13 Synthetic aperture radar (SAR) frequency and polarization requirements for applications in ecology, geology, hydrology, and oceanography: a tabular status quo after SIR-C/X-SAR Schmullius C.C.;D.L. Evans
  15. User's Guide to NASDA's SAR products Shimada, M.