Details

Autor(en) / Beteiligte

• Guo, Shipeng
• Zuo, Xiaoqing
• Wu, Wenhao
• Yang, Xu
• Zhang, Jihong
• Li, Yongfa
• Huang, Cheng
• Bu, Jingwei
• Zhu, Shasha

Titel

Mitigation of tropospheric delay induced errors in TS-InSAR ground deformation monitoring

Ist Teil von

• International journal of digital earth, 2024-12, Vol.17 (1)

Ort / Verlag

Taylor & Francis Group

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Taylor & Francis Journals Auto-Holdings Collection

Beschreibungen/Notizen

• ABSTRACTInterferometric Synthetic Aperture Radar (InSAR) is capable of detecting crust deformation. However, the accuracy is limited by spatiotemporal changes in the lower troposphere. In this paper, we constructed a periodic zenith total delay negative exponential function (PZTD-NEF) model of atmospheric spatiotemporal variation characteristics based on ERA-5 data to alleviate the temporal oscillation bias introduced by tropospheric delay and improve the accuracy of time series InSAR (TS-InSAR) inversion of surface deformation. We evaluated the model’s performance using the phase standard deviation (STD), atmospheric delay correlation coefficient with topography and the spatial structure function. The results were compared with a linear topography-dependent empirical model, generic atmospheric correction online service (GACOS) and ERA-5 methods. Our method reduces the STD of the phase of 83% of the interferograms by 12.8%. For vertical stratification delay correction, the correlation between the proposed method and the Linear, GACOS, and ERA-5 reached 0.734, 0.708, and 0.729, respectively. We found that accounting for spatiotemporal variation characteristics of tropospheric delay can alleviate the seasonal oscillations of vertical stratification delay and improve the accuracy of the deformation time series solution by 40.04%. We also used the Kunming continuous operation reference station system (KMCORS) to verify the displacement results of our method.