DOI: https://doi.org/10.14710/teknik.v39i2.20052

Estimasi Deformasi Permukaan Gunung Bromo menggunakan Analisis Time-Series InSAR Small Baseline Subset

Time-Series InSAR Analysis of the Small Baseline Subset to Estimate Surface Deformation at Mt. Bromo Indonesia

*Arliandy Pratama Arbad scopus  -  Department of Geomatics Engineering, Sumatera Institute of Technology, Indonesia
Wataru Takeuchi  -  Industrial Institute of Science, The University of Tokyo, Japan
Yosuke Aoki  -  Earthquake Research Institute, The University of Tokyo, Japan
Achmad Ardy  -  Department of Agriculture Technology, Lampung University, Indonesia
Mutiara Jamilah  -  Department of Geodesy Engineering, Diponegoro University, Indonesia
Open Access Copyright (c) 2019 Teknik

Citation Format:
Abstract

We observe the surface deformation of the Mt. Bromo which located at eastern Java Indonesia area that includes neighborhood volcanic system on TNBTS (Taman Nasional Bukit Tengger Semeru). Recently, remote sensing has played as an important role to observe volcano behaviour. We apply the SAR Interferometry (InSAR) algorithm referred to as Small Baseline Subset (SBAS) approach that allows us to generate mean deformation velocity maps and displacement time series for the studied area. The common SBAS technique, the set of interferometric phase observations writes as a linear combination of individual SAR scene phase values for each pixel independently. Particularly, the proposed analysis is based on 22 SAR data acquired by the ALOS/PALSAR sensors during the 2007–2011 time interval. A fewer studies have been able to show capability of InSAR analysis for investigating cycle of volcano especially of Mt. Bromo which characterized eruption stratovolcano in ranging one to five years. The results expected in this work represent an advancement of previous InSAR studies of the area that are mostly focused on the deformation affecting the caldera. According to the result, we expected this study could implement on risk management or infrastructure management.

Fulltext View|Download
Keywords: SBAS, Surface Deformation, Volcano Eruption, ALOS/PALSAR
Funding: Institut Teknologi Sumatera

Article Metrics:

Article Info
Section: Artikel
Language : ID
Recent articles
Evaluation of Road Surface Stability Based on the International Roughness Index on 14 Roads in Yogyakarta City Accuracy Analysis Of Three Dimensional Models Of Building Prof. H. Soedarto S. H. Using The Terrestrial Laser Scanner Technology Based On Traverse Method Risk Assessment of Information System of Faculty of Engineering University Diponegoro Using Failure Mode Effect and Analysis Method based on Framework ISO 27001 Front matter Back matter More recent articles
Most cited articles
PERENCANAAN DAN PENGANGGARAN KAMPUS BERKELANJUTAN: GREEN CAMPUS UNIVERSITAS DIPONEGORO KORELASI PENURUNAN MUKA TANAH DENGAN PENURUNAN MUKA AIR TANAH DI KOTA SEMARANG PENURUNAN MODEL PERMUKAAN DIJITAL (DSM) MENJADI MODEL ELEVASI DIJITAL (DEM) DARI CITRA SATELIT ALOS PALSAR (Studi kasus: NAD Bagian Tenggara, Indonesia) PERALIHAN MATA PENCAHARIAN SEBAGAI BENTUK ADAPTASI (Studi Kasus: Desa Batu Belubang, Bangka) INVENTARISASI PERUBAHAN WILAYAH PANTAI DENGAN METODE PENGINDERAAN JAUH (STUDI KASUS KOTA SEMARANG) More cited articles
  1. Abidin, H.Z., Andreas, H., Gamal, M., Hendrasto, M., Suganda, O.K., Purbawinata, M.A., Meilano, I. and Kimata, F. (2004). The deformation of Bromo Volcano (Indonesia) as detected by GPS surveys method. Positioning, 1(08)
  2. Berardino, P., Fornaro, G., Lanari, R. and Sansosti, E., (2002). A new algorithm for surface deformation monitoring based on small baseline differential SAR interferograms. IEEE Transactions on Geoscience and Remote Sensing, 40(11): 2375-2383
  3. Chowdhury, T.A., Minet, C. and Fritz, T. (2016). A prototype of an automated high-resolution InSAR volcano-monitoring system in the MED-SUV project. EGU General Assembly Conference Abstracts (Vol. 18: 13177)
  4. Hetland, E. A., Muse, P., Simons, M., Lin, Y. N., Agram , P. S., Di-Caprio, C. J.. Multiscale insar time series (mints) analysis of surface deformation.J. Geophys. Res., 117(B02404), 2011. doi: 10.1029/2011JB008731
  5. GAMMA Remote Sensing Research and Consulting AG. Gamma software, 2013. URL http://www.gamma-rs.ch/
  6. Kampes, B., Hanssen, R., Perski, Z.. Radar interferometry with public domain tools. Frascati, Italy, December 2003. ESA
  7. Lanari, R., Casu, F., Manzo, M. and Lundgren, P., 2007. Application of the SBAS-DInSAR technique to fault creep: A case study of the Hayward fault, California. Remote Sensing of Environment, 109(1), pp.20-28
  8. Ma, C., Cheng, X., Yang, Y., Zhang, X., Guo, Z. and Zou, Y., 2016. Investigation on Mining Subsidence Based on Multi-Temporal InSAR and Time-Series Analysis of the Small Baseline Subset—Case Study of Working Faces 22201-1/2 in Bu’ertai Mine, Shendong
  9. Rosen, P., Hensley, S., Peltzer, G., Simons, M. (2004). Updated repeat orbit interferometry package released. EOS Trans. AGU, 85(5): 47. doi: 10.1029/2004EO050004
  10. Tilling, R.I., (1989) Volcanic hazards and their mitigation: progress and problems. Reviews of Geophysics, 27(2): 237-269

Last update:

No citation recorded.

Last update: 2024-11-14 11:40:14

No citation recorded.