Paper Info
Title
Correction of Atmospheric Phase Screen in Time Series InSAR Using WRF Model for Monitoring Volcanic Activities
Abstract
One of the main limitations in measuring ground deformation using synthetic aperture radar interferometry (InSAR) is atmospheric phase delay effects. In volcanic regions, the atmospheric phase delay effects can cause serious problems in detecting volcanic unrest because atmospheric thickness is inversely related with the elevation of a volcanic mountain. It is commonly known that the atmospheric phase screen (APS) can be decomposed spatially into stratified and turbulent components. In this paper, the stratified and turbulent atmospheric conditions of a volcanic area were simulated using weather research and forecasting (WRF) model, and the simulated atmospheric conditions were compared with in situ radiosonde data. The comparison results proved that the stratified APS from the WRF model could reflect the reasonable patterns of seasonal changes and vertical profiles with dependable quality. We also found that the stratified APS was significantly correlated with time and sometimes severely contaminated the quality of volcanic deformation estimation. These results indicate that the temporal high-pass (HP) filtering, which has been usually applied in time series InSAR analysis for extracting and removing APS, cannot work properly in volcanic area. Thus, we propose a new method that employs the stratified APS obtained from the WRF model by correlating with topography and the (residual) turbulent APS that can be effectively eliminated by temporal HP filtering in persistent scatterer interferometry (PSI). We applied the proposed method (atmosphere-corrected PSI) to Advanced Land Observing Satellite Phased Array type L-band SAR data that cover Shinmoedake volcano, Japan, and found that the estimated surface deformation and APS agreed well with those measured from GPS and Moderate-Resolution Imaging Spectroradiometer data, respectively.
Year
DOI
Venue
2014
10.1109/TGRS.2013.2264532
IEEE T. Geoscience and Remote Sensing
Keywords
Field
DocType
global positioning system,topography,moderate resolution imaging spectroradiometer data,synthetic aperture radar,radiosonde data,atmospheric optics,weather research and forecasting (wrf),ground deformation,japan,atmospheric thickness,synthetic aperture radar interferometry,volcanic activities monitoring,persistent scatterer interferometry,gps data,weather research and forecasting model,topography (earth),remote sensing by radar,shinmoedake volcano,volcanology,stratified aps,high pass filtering,geophysical signal processing,insar,time series interferometric synthetic aperture radar (insar),alos palsar data,atmospheric phase delay effects,volcanic deformation estimation,volcano,radar interferometry,atmospheric phase screen (aps),wrf model,atmospheric phase screen correction,time series,advanced land observing satellite phased array type l-band sar data
Atmospheric optics,Radiosonde,Interferometric synthetic aperture radar,Volcano,Synthetic aperture radar,Remote sensing,Weather Research and Forecasting Model,Spectroradiometer,Elevation,Geodesy,Mathematics
Journal
Volume
Issue
ISSN
52
5
0196-2892
Citations 
PageRank 
References 
0
0.34
0
Authors
3
Name
Order
Citations
PageRank
Jungkyo Jung174.38
Duk-jin Kim211222.63
Sang-Eun Park320124.33