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Fine Resolution InSAR With Generalized Eigenvectors (FRInGE)

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FRInGE

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Fine Resolution InSAR using Generalized Eigenvectors

FRInGE is a package written in C++ / Python which contains tools to estimate deformation time-series by exploiting interferometric covariance matrice for distributed scatterers (DS) and the phase history of pixels that exhibit very little temporal variation (PS). Its development was funded under the NASA Earth Surface and Interior (ESI) program (NTR-51454). U.S. Government sponsorship acknowledged.

Copyright (c) 2019-2020, California Institute of Technology ("Caltech"). All rights reserved.

THIS IS RESEARCH CODE PROVIDED TO YOU "AS IS" WITH NO WARRANTIES OF CORRECTNESS. USE AT YOUR OWN RISK.

Contents


  1. Software prerequisites and installation
  2. Detailed documentation of processing modules
  3. Detailed documentation of workflows
  4. Note of thanks
  5. TODO list

Citation


  1. Fattahi, H., Agram, P.S., Tymofyeyeva, E. and Bekaert, D.P., 2019. FRInGE; Full-Resolution InSAR timeseries using Generalized Eigenvectors. AGUFM, 2019, pp.G11B-0514.

  2. Tymofyeyeva, E., Agram, P.S., Fattahi, H. and Bekaert, D.P., 2019. Transient creep on the Concord Fault, Eastern Bay Area, revealed by InSAR time series. AGUFM, 2019, pp.T13D-0304.

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  • C++ 46.8%
  • Python 43.6%
  • Cython 3.4%
  • CMake 2.8%
  • Cuda 1.6%
  • MATLAB 1.5%
  • Other 0.3%