Along-Track Interferometry for Simultaneous SAR and GMTI: Application to Gotcha Challenge Data

被引：26

作者：

Deming, Ross W. ^{[1
]}

机构：

[1] Solid State Sci Corp, Hollis, NH 03049 USA

来源：

ALGORITHMS FOR SYNTHETIC APERTURE RADAR IMAGERY XVIII | 2011年 / 8051卷

关键词：

Radar interferometry; synthetic aperture radar; moving target indication; signal processing; SAR; GMTI; DPCA; AT-InSAR;

D O I：

10.1117/12.883282

中图分类号：

TP7 [遥感技术];

学科分类号：

081102 ; 0816 ; 081602 ; 083002 ; 1404 ;

摘要：

This paper describes several alternative techniques for detecting and localizing slowly-moving targets in cultural clutter using synthetic aperture radar (SAR) data. Here, single-pass data is jointly processed from two or more receive channels which are spatially offset in the along-track direction. We concentrate on two clutter cancelation methods known as the displaced phase center antenna (DPCA) technique and along-track SAR interferometry (AT-InSAR). Unlike the commonly-used space-time adaptive processing (STAP) techniques, both DPCA and AT-InSAR tend to perform well in the presence of non-homogeneous urban or mountainous clutter. We show, mathematically, the striking similarities between DPCA and AT-InSAR. Furthermore, we demonstrate using experimental SAR data that these two techniques yield complementary information, which can be combined into a "hybrid" technique that incorporates the advantages of each for significantly better performance. Results are generated using the Gotcha challenge data, acquired using a three-channel X-band spotlight SAR system.

引用

页数：18

共 50 条

[41] Ocean wave measurement by the along-track and cross-track interferometric SAR
Kojima, Shoichiro
[J]. 13TH EUROPEAN CONFERENCE ON SYNTHETIC APERTURE RADAR, EUSAR 2021, 2021, : 717 - 722
[42] DEVELOPMENT OF PI-SAR2 ALONG-TRACK INTERFEROMETRIC SAR SYSTEM
Kojima, Shoichiro
Umehara, Toshihiko
Uemoto, Jyunpei
Kobayashi, Tatsuharu
Satake, Makoto
Uratsuka, Seiho
[J]. 2013 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS), 2013, : 3159 - 3162
[43] Along-track bistatic Low Frequency UWB SAR Experiment
Xie, Hongtu
Hu, Jun
Duan, Keqing
Chen, Zengping
Xu, Shiyou
Zhu, Nannan
Xi, Bin
Lin, Yiquan
An, Daoxiang
Wang, Guoqian
[J]. 2019 20TH INTERNATIONAL RADAR SYMPOSIUM (IRS), 2019,
[44] Observing estuarine currents and fronts in the Tay Estuary, Scotland, using an airborne SAR with along-track interferometry (ATI)
Ferrier, G
Macklin, JT
Neill, SP
Folkard, AM
Copeland, GJM
Anderson, JM
[J]. INTERNATIONAL JOURNAL OF REMOTE SENSING, 2005, 26 (20) : 4399 - 4404
[45] Investigation of ocean waves and currents with PacRim along-track interferometry (ATI)
Kim, D
Moon, WM
[J]. IGARSS 2001: SCANNING THE PRESENT AND RESOLVING THE FUTURE, VOLS 1-7, PROCEEDINGS, 2001, : 1415 - 1417
[46] LARGE ALONG-TRACK BASELINE SAR-GMTI: FIRST RESULTS WITH THE TERRASAR-X/TANDEM-X SATELLITE CONSTELLATION
Baumgartner, Stefan V.
Krieger, Gerhard
[J]. 2011 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS), 2011, : 1319 - 1322
[47] TIDAL CURRENT MEASUREMENT WITH TERRASAR-X ALONG-TRACK INTERFEROMETRY
Suchandt, Steffen
Runge, Hartmut
Romeiser, Roland
Tous-Ramon, Nuria
Steinbrecher, Ulrich
[J]. 2010 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, 2010, : 2432 - 2435
[48] Elimination of arcross-track phase components in airborne along-track interferometry data to improve object velocity measurements
Schulz, K
Soergel, U
Thoennessen, U
Stilla, U
[J]. IGARSS 2003: IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, VOLS I - VII, PROCEEDINGS: LEARNING FROM EARTH'S SHAPES AND SIZES, 2003, : 4377 - 4379
[49] Sentinel-1 TOPS interferometry for along-track displacement measurement
Jiang, H. J.
Pei, Y. Y.
Li, J.
[J]. INTERNATIONAL SYMPOSIUM ON EARTH OBSERVATION FOR ONE BELT AND ONE ROAD (EOBAR), 2017, 57
[50] Performance assessment of along-track interferometry for detecting ground moving targets
Chen, CW
[J]. PROCEEDINGS OF THE IEEE 2004 RADAR CONFERENCE, 2004, : 99 - 104

← 1 2 3 4 5 →