Title :
Spaceborne D-InSAR system: Coherence analysis
Author :
Wei Li ; Liangsheng Lou ; Siwei Liu ; Mingsheng Liao ; Huaping Xu ; Weimin Yu
Author_Institution :
State Key Lab. of Geo-Inf. Eng., Wuhan Univ., Wuhan, China
Abstract :
Spaceborne D-InSAR system is a kind of SAR satellite system aiming at differential interferometry application. It provides us a capability of measuring subtle deformation on the ground with phase difference. In this work, we focused on the system performance analysis theory as a first step to launch the research work on the overall spaceborne D-InSAR system. After the theoretical model and major error analysis work, we realized that coherence is really important. The qualitative and quantitative analysis showed that the situation becomes worse due to volumetric and temporal decorrelations compared with single-pass InSAR system such as TanDEM-X system. The in-orbit SAR satellite data experiment study validated the quantitative analysis. In order to obtain high-precision D-InSAR measurement, there are some new problems to solve rather than just using an existing SAR satellite to implement D-InSAR.
Keywords :
geophysical image processing; radar imaging; radar interferometry; remote sensing by radar; spaceborne radar; synthetic aperture radar; TanDEM-X system; coherence analysis; deformation measurement; differential interferometry application; error analysis work; in-orbit SAR satellite data experiment; phase difference; qualitative analysis; quantitative analysis; single-pass InSAR system; spaceborne D-InSAR system; system performance analysis theory; temporal decorrelations; volumetric decorrelations; Coherence; Decorrelation; Geometry; Satellites; Spaceborne radar; Synthetic aperture radar; System performance; D-InSAR; coherence; error factor analysis; performance analysis;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International
Conference_Location :
Quebec City, QC
DOI :
10.1109/IGARSS.2014.6946438
