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http://dx.doi.org/10.7780/kjrs.2014.30.6.3

Measurement of 2D surface deformation on the Seguam volcano of Alaska using DInSAR Multi-track time-series techniques  

Lee, Seul-Ki (National Institute of Meteorological Research, Korea Meteorological Administration)
Lee, Chang-Wook (National Institute of Meteorological Research, Korea Meteorological Administration)
Publication Information
Korean Journal of Remote Sensing / v.30, no.6, 2014 , pp. 719-730 More about this Journal
Abstract
Small BAseline Subset (SBAS) technique using multi master interferograms can be effective to detect surface deformation in forest area. In this paper, The analysis reveals area of 2-dimension surface deformation at Seguam Island in Aleutian Arc., Alaska. We acquired ERS-1/2 data from track 201 and 473 datasets on Seguam Island from 1992 to 2008. This study analyze surface deformation applying Differential Interferometry Synthetic Aperture Radar (DInSAR) and SBAS time series method using two adjacent tracks. As a results, it was calculated that subsidence -1~2 cm in LOS direction and - 2~3 cm in vertical direction. The horizontal direction was repeated contraction and expansion. The observation of 2-dimension displacements explained the volcanic activity on Seguam island. Also, it is believed to be used for basic data to estimate movements of magma source.
Keywords
Seguam; 2D surface deformation; SBAS; DInSAR; InSAR;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Madsen S.N. and H.A. Zebker, 1999. Imaging radar interferometry. In Principles and Applications of Imaging Radar, Manual of Remote Sensing, 2: 359-380.
2 Massonnet, D. and K.L. Feigl, 1998. Radar interferometry and its application to changes in the earth's surface, Review of Geophysics, 36: 441-500.   DOI
3 Massonnet D., M. Rossi, C. Carmona, F. Adragna, G. Peltzer, K. Feigl, and T. Rabaute, 1993. The Displacement Field of the Landers Earthquake Mapped by Radar Interferometry, Nature, 364(6433): 138-142.   DOI   ScienceOn
4 Miller T.P., R.G. McGimsey, D.H. Richter, J.R. Riehle, C.J. Nye, M.E. Yount, and J.A. Dumoulin, 1998. Catalogue of the historically active volcanoes of Alaska. U S Geol Surv Open-File Rpt., 98-582: 1-104.
5 Stancliffe R.P.W. and W.A. Kooij, 2001. The use of satellite-based radar interferometry to monitor production activity at the Cold Lake heavy oil field, Alberta, Canada, AAPG Bulletin, 85(5): 781-793.
6 Wright T., E.P. Barry, and L. Zhong, 2004. Toward mapping surface deformation in three dimensions using InSAR, Geophysical Research Letters, 31(L01607).
7 Zebker H.A. and R.M. Goldstein, 1986. Topographic mapping from interferometric synthetic aperture radar observations, Journal of Geophysical Research, 91(B5): 4993-4999.   DOI
8 Zhang, L., X.L. Ding, and Z. Lu, 2011. Modeling PSInSAR time series without phase unwrapping, IEEE Transactions on Geoscience and Remote Sensing, 49: 547-556.   DOI   ScienceOn
9 Bamler R. and P. Hartl, 1998. Synthetic aperture radar interferometry, Opscience, 14(4).
10 Berardino P., G. Fornaro, R. Lanari, and E. Sansosti, 2002. A new algorithm for surface deformation monitoring based on small baseline differential interferograms, IEEE Transactions on Geoscience and Remote Sensing, 40: 2375-2383.   DOI   ScienceOn
11 Burgmann R., P.A. Rosen and E.J. Fielding, 2000. Synthetic aperture radar: Interferometry to measure earth's surface toppgraphy and its deformation, Earth Planet. Sci., 28: 169-209.   DOI   ScienceOn
12 Cho M.J., L. Zhang and C.W. Lee, 2013. Monitoring of Volcanic Activity of Augustine Volcano, Alaska Using TCPInSAR and SBAS Time-series Techniques for Measuring Surface Deformation, Korean Journal of Remote Sensing, 29(1): 21-34.   DOI   ScienceOn
13 Gabriel A.K., R.M. Goldstein and H.A. Zebker, 1989. Mapping Small Elevation Changes Over Large Areas: Differential Radar Interferometry, J. Geophys. Res., 94(B7): 9183-9191.   DOI
14 Ge L., S. Han and C. Rizos, 2000. Interpolation of GPS results incorporating geophysical and InSAR information, Earth Planets Space, 52: 999-1002.   DOI
15 Gens R. and J.L. Genderen. Review Article SAR interferometry-issues, techniques, applications, International Journal of Remote Sensing, 17(10): 1803-1835.   DOI
16 Global Volcanism Program(GVP), http://www.volcano.si.edu/.
17 Gourmelen N., F. Amelung, F. Casu, M. Manzo and R. Lanari, 2007. Mining-related ground deformation in Crescent Valley, Nevada: Implications for sparse GPS networks, Geophysical Research Letters, 34(9).
18 Jung H.S., C.W. Lee, J.W. Park, K.D. Kim and J.S. Won, 2008. Improvement of Small Baseline Subset(SBAS) algorithm for measuring timeseries surface deformations from differential SAR interferograms, Korean Journal of Remote Sensing, 24(2): 165-177(in Korean with English abstract).   DOI
19 Graham, L.C., 1974. Synthetic Interferometer Radar for Topographic Mapping, Proc. IEEE, 62: 763-768.   DOI   ScienceOn
20 Griffiths, H.D., 1995. Interferometric Synthetic Aperture Radar (InSAR), London: IEE Electronics & Communication Engineering Journal, 7(6).
21 Pedersen R. and F. Sigmundsson, 2006. Temporal development of the 1999 intrusive episode in the Eyjafjallajokull volcano, Iceland, derived from InSAR images, Bulletin of Volcanology, 68(4): 377-393.   DOI
22 Pritchard M.E. and M. Simons, 2004. An InSAR-based survey of volcanic deformation in the southern Andes, Geophysical Research Letters, 31(L15610), doi:10.1029/2004GL020545.   DOI
23 Rosen P.A., S. Hensley, I.R. Joughin, F.K. Li, S.N. Madsen, E, Rodriguez, R.M. Goldstein, 2000. Synthetic Aperture Radar Interferometry. Proc. of the IEEE, Vol. 88(3): 333-382.   DOI   ScienceOn
24 Lee C.W., J.S. Zhong, J.S. Won, and H.S. Jung, 2012. Simulation of time series surface deformation to validate multi-interferogram InSAR processing technique, International Journal of Remote Sensing, 33(22): 7075-7087.   DOI
25 Lee C.W., L. Zhong, J.S. Won, H.S. Jung, and D. Dzurisin, 2013. Dynamic deformation of Seguam Island, Alaska, 1992-2008, from multi-interferogram InSAR processing, Journal of Volcanology and Geothermal Research, 260: 43-51.   DOI