Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR

© 2018 by the authors. Licensee MDPI, Basel, Switzerland. Interferograms with short wavelength (e.g., X-band) are usually prone to temporal decorrelation in permafrost regions, leading to the unavailability of sufficient high-coherence interferograms for performing conventional time series InSAR ana...

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Main Authors: Dai K, Liu G, Li Z, Ma D, Wang X, Zhang B, Tang J, Li G
Format: Article in Journal/Newspaper
Language:unknown
Published: MDPI AG 2018
Subjects:
permafrost
Thermokarst
Online Access:https://eprint.ncl.ac.uk/fulltext.aspx?url=249225/6200120C-D228-44C2-BB56-AE59CE25DA28.pdf&pub_id=249225
id ftunivnewcastle:oai:eprint.ncl.ac.uk:249225
record_format openpolar
spelling ftunivnewcastle:oai:eprint.ncl.ac.uk:249225 2023-05-15T17:56:59+02:00 Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR Dai K Liu G Li Z Ma D Wang X Zhang B Tang J Li G 8 June 2018 application/pdf https://eprint.ncl.ac.uk/fulltext.aspx?url=249225/6200120C-D228-44C2-BB56-AE59CE25DA28.pdf&pub_id=249225 unknown MDPI AG Sensors, 8 June 2018 Article 2018 ftunivnewcastle 2020-06-11T23:42:42Z © 2018 by the authors. Licensee MDPI, Basel, Switzerland. Interferograms with short wavelength (e.g., X-band) are usually prone to temporal decorrelation in permafrost regions, leading to the unavailability of sufficient high-coherence interferograms for performing conventional time series InSAR analysis. This paper proposes the utilization of temporary scatterers for the stacking InSAR method, thus enabling extraction of subsidence in a permafrost region with limited SAR images and limited high-coherence interferograms. Such method is termed as the temporary scatterers stacking InSAR (TSS-InSAR). Taking the Gonghe-Yushu highway (about 30 km), part of G214 National Highway in Qinghai province (in a permafrost region), as a case study, this TSS-InSAR approach was demonstrated in detail and implemented. With 10 TerraSAR-X images acquired during the period from May 2015 to August 2015, the subsidence along this highway was extracted. In this case the lack of a consistent number of SAR acquisitions limits the possibility to perform other conventional time series InSAR analysis. The results show that the middle part of this highway is in the thermokarst and seasonal frozen soil area, and its accumulated subsidence reach up to 10 cm in 110 days. The thawing phenomena is still the main reason for the instability of highway. The results demonstrate that the TSS-InSAR method can effectively extract the subsidence information in a challenging scenario with limited X-band SAR images and limited high-coherence interferograms, where other time series InSAR-based techniques cannot be applied in a simple way. Article in Journal/Newspaper permafrost Thermokarst Newcastle University Library ePrints Service
institution Open Polar
collection Newcastle University Library ePrints Service
op_collection_id ftunivnewcastle
language unknown
description © 2018 by the authors. Licensee MDPI, Basel, Switzerland. Interferograms with short wavelength (e.g., X-band) are usually prone to temporal decorrelation in permafrost regions, leading to the unavailability of sufficient high-coherence interferograms for performing conventional time series InSAR analysis. This paper proposes the utilization of temporary scatterers for the stacking InSAR method, thus enabling extraction of subsidence in a permafrost region with limited SAR images and limited high-coherence interferograms. Such method is termed as the temporary scatterers stacking InSAR (TSS-InSAR). Taking the Gonghe-Yushu highway (about 30 km), part of G214 National Highway in Qinghai province (in a permafrost region), as a case study, this TSS-InSAR approach was demonstrated in detail and implemented. With 10 TerraSAR-X images acquired during the period from May 2015 to August 2015, the subsidence along this highway was extracted. In this case the lack of a consistent number of SAR acquisitions limits the possibility to perform other conventional time series InSAR analysis. The results show that the middle part of this highway is in the thermokarst and seasonal frozen soil area, and its accumulated subsidence reach up to 10 cm in 110 days. The thawing phenomena is still the main reason for the instability of highway. The results demonstrate that the TSS-InSAR method can effectively extract the subsidence information in a challenging scenario with limited X-band SAR images and limited high-coherence interferograms, where other time series InSAR-based techniques cannot be applied in a simple way.
format Article in Journal/Newspaper
author Dai K
Liu G
Li Z
Ma D
Wang X
Zhang B
Tang J
Li G
spellingShingle Dai K
Liu G
Li Z
Ma D
Wang X
Zhang B
Tang J
Li G
Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
author_facet Dai K
Liu G
Li Z
Ma D
Wang X
Zhang B
Tang J
Li G
author_sort Dai K
title Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
title_short Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
title_full Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
title_fullStr Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
title_full_unstemmed Monitoring highway stability in permafrost regions with X-band temporary scatterers stacking InSAR
title_sort monitoring highway stability in permafrost regions with x-band temporary scatterers stacking insar
publisher MDPI AG
publishDate 2018
url https://eprint.ncl.ac.uk/fulltext.aspx?url=249225/6200120C-D228-44C2-BB56-AE59CE25DA28.pdf&pub_id=249225
genre permafrost
Thermokarst
genre_facet permafrost
Thermokarst
op_source Sensors, 8 June 2018
_version_ 1766165322500407296

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