Mitigation of time-series InSAR turbulent atmospheric phase noise: A review
时间序列 InSAR 湍流大气相位噪声的缓解:综述
時系列InSAR乱流大気位相ノイズの緩和:レビュー
시계열 InSAR 난류 대기 위상 잡음 완화: 검토
Mitigación del ruido de fase atmosférica turbulenta InSAR de serie temporal: una revisión
Atténuation du bruit de phase atmosphérique turbulent InSAR de séries chronologiques : un examen
Уменьшение турбулентного атмосферного фазового шума InSAR во временных рядах: обзор
Zhiwei Li 李志伟, Meng Duan 段梦, Yunmeng Cao 曹云梦, Minzheng Mu, Xin He, Jianchao Wei 韦建超
School of Geosciences and Info-Physics, Central South University, Changsha 410083, Hunan, China
中国 湖南 长沙 中南大学地球科学与信息物理学院
Synthetic Aperture Radar (SAR) interferometry is one of the most powerful remote sensing tools for ground deformation detection. However, tropospheric delay greatly limits the measurement accuracy of the InSAR technique. While vertically stratified tropospheric delays have been extensively investigated and well tackled, turbulent tropospheric phase noise still remains an intractable issue.
In recent years, great efforts have been made to reduce the influence of turbulent atmospheric delay. This contribution is intended to provide a systematic review of the progress achieved in this field. First, it introduces the physical characteristics of atmospheric signals in interferograms.
Then, a review of the main mitigation algorithms proposed in the literature is provided. In addition, the strengths and weaknesses of each approach are analyzed to provide guidance for choosing a suitable method accordingly. Finally, suggestions for resolving the challenging issues and an outlook for future research are given.
