English

Single-Look Multi-Master SAR Tomography: An Introduction

Signal Processing 2020-06-30 v1

Abstract

This paper addresses the general problem of single-look multi-master SAR tomography. For this purpose, we establish the single-look multi-master data model, analyze its implications for single and double scatterers, and propose a generic inversion framework. The core of this framework is nonconvex sparse recovery, for which we develop two algorithms: one extends the conventional nonlinear least squares (NLS) to the single-look multi-master data model, and the other is based on bi-convex relaxation and alternating minimization (BiCRAM). We provide two theorems for the objective function of the NLS subproblem, which lead to its analytic solution up to a constant phase angle in the one-dimensional case. We also report our findings from the experiments on different acceleration techniques for BiCRAM. The proposed algorithms are applied to a real TerraSAR-X data set, and validated with height ground truth made available via a SAR imaging geodesy and simulation framework. This shows empirically that the \emph{single-master} approach, if applied to a single-look \emph{multi-master} stack, can be insufficient for layover separation, and the \emph{multi-master} approach can indeed perform slightly better (despite being computationally more expensive) even in the case of single scatterers. Besides, this paper also sheds light on the special case of single-look bistatic SAR tomography, which is relevant for current and future SAR missions such as TanDEM-X and Tandem-L.

Keywords

Cite

@article{arxiv.2006.16013,
  title  = {Single-Look Multi-Master SAR Tomography: An Introduction},
  author = {Nan Ge and Richard Bamler and Danfeng Hong and Xiao Xiang Zhu},
  journal= {arXiv preprint arXiv:2006.16013},
  year   = {2020}
}
R2 v1 2026-06-23T16:41:57.362Z