A new method for measuring deformation on volcanoes and other natural terrains using InSAR persistent scatterers

Hooper, Andrew; Zebker, H. A.; Segall, P.; Kampes, Bert

doi:10.1029/2004gl021737

Cited by 1,422 publications

(975 citation statements)

References 12 publications

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“…Besides, it provides precise information related to the displacements of the surface in question. These highly coherent targets, PSs, identified in multiple interferograms, allow to minimize and solve some of the problems related to the processing and the phase unwrapping, as well as a better discretization of the signals that occur in the interferometric phase, in addition to allowing the estimation and removal of orbital errors, and topography phase, deformation and atmosphere effects of the interferogram phase values, through their different behaviors in time and space Rocca 2001, Werner et al 2003;Hooper et al 2004).…”

Section: Methodological Approachmentioning

confidence: 99%

Application of persistent scatterers interferometry for surface displacements monitoring in N5E open pit iron mine using TerraSAR-X data, in Carajás Province, Amazon region

et al. 2017

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Carajás Mineral Province, Amazon region, is the most important one in Brazil. Vale S.A. Company has the right to operate in the area of the N5E mine. The work is conducted on rock alteration products of low geomechanical quality related to sandstones, siltstones, and a lateritic cover. In order to monitor ground deformation, 33 TerraSAR-X images covering the period of March 2012-April 2013 were used in the investigation. An interferometric synthetic aperture radar (InSAR) approach based on permanent scatterer interferometry (PSI) using an interferometric point target analysis algorithm was applied. Results demonstrated that most of the area was considered stable during the time span of the image acquisition. However, persistent scatterers (PSs) with high deformation rates were mapped over a landfill probably related to settlements. To validate the PSI data, graphs were generated with the displaced information based on topographic measurements in the field. The graphs showed that the surface deformations during TSX-1 runway coverage are within the miner's safety threshold and do not present a risk of major problems. The PSI data provided a synoptic and detailed view of the deformation process that affects the mining complex without the need of field campaign or instrumentation.

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Section: Methodological Approachmentioning

confidence: 99%

Application of persistent scatterers interferometry for surface displacements monitoring in N5E open pit iron mine using TerraSAR-X data, in Carajás Province, Amazon region

et al. 2017

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“…Thus, the multi-temporal InSAR (MTInSAR) techniques are developed to overcome the limitation of DInSAR technology. Currently, there are three categories of MT-InSAR approaches used to monitor land subsidence in Taiwan, such as persistent scatterersInSAR (PSI) (Hooper et al, 2004), Stanford method for persistent scatterers/multitemporal InSAR (StaMPS/MTI) (Hooper, 2008) and temporarily coherence point InSAR (TCPInSAR) (Zhang et al, 2011). In this study, we utilize TCPInSAR approach to measure the ground deformation in CRAF from 2007 to 2011 and to compare the TCPInSAR result with precise leveling data.…”

Section: Areal Subsidence By Multi Temporal Insar Mt-insarmentioning

confidence: 99%

Multiple sensors applied to monitorland subsidence in Central Taiwan

et al. 2015

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Abstract. During 1992During -2013, pumping of groundwater caused large-scale aquifer-system compaction and land subsidence in the Choshui River Alluvial Fan (CRAF) in Taiwan. The subsidence has already endangered the operation of Taiwan High Speed Rail (THSR). In this paper, we introduce the multiple sensors monitoring system to study the extent of subsidence in CRAF and its mechanism, including GPS (Global Positioning System), PSI (Persistent Scatterer Interferometry), leveling and multi-layer compaction monitoring well. These sensors complement each other in spatial and temporal resolutions.

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“…Numerous methods exist for both 3-D point-based and temporal measurements, with the choice of method depending on the size of the data set and the complexity of the temporal deformation (e.g. Dong et al 1998;Berrocoso et al 2012;Fournier et al 2009, or for InSAR Berardino et al 2002Hooper et al 2004). …”

Section: Spatial Integration and Time-seriesmentioning

confidence: 99%

“…Figure A1. Corrections of (a) angles and (b) height difference observations before an adjustment within a topocentric reference frame (a cartesian reference frame oriented with the direction of the gravity at its origin) (Guillaume et al 2008) Since the topocentric reference system is rigorously Cartesian, GNSS, angles and height differences must be adjusted to compensate for the differences in plumb-line orientation between measurement sites (Hofmann-Wellenhof & Moritz 2005). The transformation of the GNSS measurements within a global 3-D cartesian reference system (e.g.…”

Section: A C K N O W L E D G E M E N T Smentioning

confidence: 99%

Integrated velocity field from ground and satellite geodetic techniques: application to Arenal volcano

Muller¹,

Potro

Biggs³

et al. 2014

Geophysical Journal International

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S U M M A R YMeasurements of ground deformation can be used to identify and interpret geophysical processes occurring at volcanoes. Most studies rely on a single geodetic technique, or fit a geophysical model to the results of multiple geodetic techniques. Here we present a methodology that combines GPS, Total Station measurements and InSAR into a single reference frame to produce an integrated 3-D geodetic velocity surface without any prior geophysical assumptions. The methodology consists of five steps: design of the network, acquisition and processing of the data, spatial integration of the measurements, time series computation and finally the integration of spatial and temporal measurements. The most significant improvements of this method are (1) the reduction of the required field time, (2) the unambiguous detection of outliers, (3) an increased measurement accuracy and (4) the construction of a 3-D geodetic velocity field. We apply this methodology to ongoing motion on Arenal's western flank. Integration of multiple measurement techniques at Arenal volcano revealed a deformation field that is more complex than that described by individual geodetic techniques, yet remains consistent with previous studies. This approach can be applied to volcano monitoring worldwide and has the potential to be extended to incorporate other geodetic techniques and to study transient deformation.

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A new method for measuring deformation on volcanoes and other natural terrains using InSAR persistent scatterers

Cited by 1,422 publications

References 12 publications

Application of persistent scatterers interferometry for surface displacements monitoring in N5E open pit iron mine using TerraSAR-X data, in Carajás Province, Amazon region

Application of persistent scatterers interferometry for surface displacements monitoring in N5E open pit iron mine using TerraSAR-X data, in Carajás Province, Amazon region

Multiple sensors applied to monitorland subsidence in Central Taiwan

Integrated velocity field from ground and satellite geodetic techniques: application to Arenal volcano

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