Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia

Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia

Land subsidence had been a significant problem in DKI Jakarta and Semarang, with at least 20 kilometres of roads affected. Repairing them will require at least US $ 1 million per kilometre. Land subsidence monitoring has been carried out using terrestrial methods (GPS and levelling), which are belie...

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Main Authors: Mohammad Ardha, Argo Galih Suhadha, Atriyon Julzarika, Fajar Yulianto, Dipo Yudhatama, Rofifatuz Zulfa Darwista
Format: Article
Language:English
Published: University of Brawijaya 2020-12-01
Series:Journal of Degraded and Mining Lands Management
Subjects:
dinsar
jakarta
land subsidence
remote sensing
sentinel-1
Online Access:https://jdmlm.ub.ac.id/index.php/jdmlm/article/view/786
id doaj-4efb1a553722410caa299dc2c9a24199
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spelling doaj-4efb1a553722410caa299dc2c9a241992020-12-31T18:28:10ZengUniversity of BrawijayaJournal of Degraded and Mining Lands Management2339-076X2020-12-01822587259310.15243/jdmlm.2021.082.2587325Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, IndonesiaMohammad Ardha0Argo Galih Suhadha1Atriyon Julzarika2Fajar Yulianto3Dipo Yudhatama4Rofifatuz Zulfa Darwista5National Insitute of Aeronautics And SpaceNational Insitute of Aeronautics And SpaceNational Insitute of Aeronautics And SpaceNational Insitute of Aeronautics And SpaceNational Insitute of Aeronautics And SpaceGeodesy and Geomatics Engineering Study Program / Institute Technology of BandungLand subsidence had been a significant problem in DKI Jakarta and Semarang, with at least 20 kilometres of roads affected. Repairing them will require at least US $ 1 million per kilometre. Land subsidence monitoring has been carried out using terrestrial methods (GPS and levelling), which are believed to have a high degree of accuracy. The high accuracy of the terrestrial method results in a lack of precision over a large area. On the other hand, remote sensing technology as a non-terrestrial method has developed to monitor land subsidence which can produce high precision over a large area. This study aimed to test the Sentinel-1 satellite data using the Differential Interferometric Synthetic Aperture Radar (DInSAR) method in monitoring land subsidence in DKI Jakarta. DInSAR is a method in Remote Sensing that utilizes radar sensors to analyze the phase differences of a SAR data pair that have different times of capture and have been catalogued to obtain displacement along the area of collection. The results showed that the North Jakarta area experienced the highest land subsidence in the entire Jakarta area. The annual average rate from 2017-2019 is 3.4 cm. The value of 3.4 cm is the average value of all samples in the North Jakarta area. The second area where high land subsidence is West Jakarta, where the maximum amount value of subsidence is 2.8 cm. The accuracy-test results with the MONAS test point showed that the difference between field data and DInSAR results was ± 6.5 cm. The results of this research indicate that the DInSAR method is quite capable of describing land subsidence in the DKI Jakarta area with a relatively good level of precision.https://jdmlm.ub.ac.id/index.php/jdmlm/article/view/786dinsarjakartaland subsidenceremote sensingsentinel-1
collection DOAJ
language English
format Article
sources DOAJ
author Mohammad Ardha
Argo Galih Suhadha
Atriyon Julzarika
Fajar Yulianto
Dipo Yudhatama
Rofifatuz Zulfa Darwista
spellingShingle Mohammad Ardha
Argo Galih Suhadha
Atriyon Julzarika
Fajar Yulianto
Dipo Yudhatama
Rofifatuz Zulfa Darwista
Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
Journal of Degraded and Mining Lands Management
dinsar
jakarta
land subsidence
remote sensing
sentinel-1
author_facet Mohammad Ardha
Argo Galih Suhadha
Atriyon Julzarika
Fajar Yulianto
Dipo Yudhatama
Rofifatuz Zulfa Darwista
author_sort Mohammad Ardha
title Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
title_short Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
title_full Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
title_fullStr Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
title_full_unstemmed Utilization of Sentinel-1 satellite imagery data to support land subsidence analysis in DKI Jakarta, Indonesia
title_sort utilization of sentinel-1 satellite imagery data to support land subsidence analysis in dki jakarta, indonesia
publisher University of Brawijaya
series Journal of Degraded and Mining Lands Management
issn 2339-076X
publishDate 2020-12-01
description Land subsidence had been a significant problem in DKI Jakarta and Semarang, with at least 20 kilometres of roads affected. Repairing them will require at least US $ 1 million per kilometre. Land subsidence monitoring has been carried out using terrestrial methods (GPS and levelling), which are believed to have a high degree of accuracy. The high accuracy of the terrestrial method results in a lack of precision over a large area. On the other hand, remote sensing technology as a non-terrestrial method has developed to monitor land subsidence which can produce high precision over a large area. This study aimed to test the Sentinel-1 satellite data using the Differential Interferometric Synthetic Aperture Radar (DInSAR) method in monitoring land subsidence in DKI Jakarta. DInSAR is a method in Remote Sensing that utilizes radar sensors to analyze the phase differences of a SAR data pair that have different times of capture and have been catalogued to obtain displacement along the area of collection. The results showed that the North Jakarta area experienced the highest land subsidence in the entire Jakarta area. The annual average rate from 2017-2019 is 3.4 cm. The value of 3.4 cm is the average value of all samples in the North Jakarta area. The second area where high land subsidence is West Jakarta, where the maximum amount value of subsidence is 2.8 cm. The accuracy-test results with the MONAS test point showed that the difference between field data and DInSAR results was ± 6.5 cm. The results of this research indicate that the DInSAR method is quite capable of describing land subsidence in the DKI Jakarta area with a relatively good level of precision.
topic dinsar
jakarta
land subsidence
remote sensing
sentinel-1
url https://jdmlm.ub.ac.id/index.php/jdmlm/article/view/786
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AT rofifatuzzulfadarwista utilizationofsentinel1satelliteimagerydatatosupportlandsubsidenceanalysisindkijakartaindonesia
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