A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode

A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode

The bistatic configuration with a geosynchronous orbital SAR (GEOSAR) transmitter and unmanned aerial vehicle SAR (UAVSAR) receiver can continuously image in any dangerous and interesting district. In this paper, the new imaging method in the case with the smaller orbital inclination of geosynchrono...

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Main Authors: W. Zhuo-qun, L. Ya-jun, S. Sheng, L. Shuang-shuang, X. Jin-guo, W. Jun-qiang, Z. Jian-hua
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:International Journal of Antennas and Propagation
Online Access:http://dx.doi.org/10.1155/2018/6138709
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spelling doaj-80e0e52c74a74c4aa7a24615dec2b57a2020-11-25T01:18:29ZengHindawi LimitedInternational Journal of Antennas and Propagation1687-58691687-58772018-01-01201810.1155/2018/61387096138709A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam ModeW. Zhuo-qun0L. Ya-jun1S. Sheng2L. Shuang-shuang3X. Jin-guo4W. Jun-qiang5Z. Jian-hua6Shanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaShanghai Radio Equipment Research Institute, Shanghai 200090, ChinaThe bistatic configuration with a geosynchronous orbital SAR (GEOSAR) transmitter and unmanned aerial vehicle SAR (UAVSAR) receiver can continuously image in any dangerous and interesting district. In this paper, the new imaging method in the case with the smaller orbital inclination of geosynchronous earth orbit and the steering beam working mode of UAVSAR was mainly studied and analyzed. GEOSAR can be approximately expressed as a static state, and only the receiver provides all the Doppler information. UAVSAR works in the steering beam modes, such as spotlight, sliding spotlight, and TOPS (Terrain Observation by Progressive Scan) mode. The azimuth bandwidth increased by the steering beam causes an aliasing situation in the azimuth frequency domain. To solve this problem, the proposed imaging method corrects the azimuth frequency aliasing using the scaling transform and the bulk azimuth compression. Compared with the traditional imaging method, the simulation validates perfectly the effectiveness of the bistatic imaging algorithm.http://dx.doi.org/10.1155/2018/6138709
collection DOAJ
language English
format Article
sources DOAJ
author W. Zhuo-qun
L. Ya-jun
S. Sheng
L. Shuang-shuang
X. Jin-guo
W. Jun-qiang
Z. Jian-hua
spellingShingle W. Zhuo-qun
L. Ya-jun
S. Sheng
L. Shuang-shuang
X. Jin-guo
W. Jun-qiang
Z. Jian-hua
A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
International Journal of Antennas and Propagation
author_facet W. Zhuo-qun
L. Ya-jun
S. Sheng
L. Shuang-shuang
X. Jin-guo
W. Jun-qiang
Z. Jian-hua
author_sort W. Zhuo-qun
title A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
title_short A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
title_full A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
title_fullStr A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
title_full_unstemmed A Bistatic Imaging Method for GEOSAR in the Strip Mode and UAVSAR in the Steering Beam Mode
title_sort bistatic imaging method for geosar in the strip mode and uavsar in the steering beam mode
publisher Hindawi Limited
series International Journal of Antennas and Propagation
issn 1687-5869
1687-5877
publishDate 2018-01-01
description The bistatic configuration with a geosynchronous orbital SAR (GEOSAR) transmitter and unmanned aerial vehicle SAR (UAVSAR) receiver can continuously image in any dangerous and interesting district. In this paper, the new imaging method in the case with the smaller orbital inclination of geosynchronous earth orbit and the steering beam working mode of UAVSAR was mainly studied and analyzed. GEOSAR can be approximately expressed as a static state, and only the receiver provides all the Doppler information. UAVSAR works in the steering beam modes, such as spotlight, sliding spotlight, and TOPS (Terrain Observation by Progressive Scan) mode. The azimuth bandwidth increased by the steering beam causes an aliasing situation in the azimuth frequency domain. To solve this problem, the proposed imaging method corrects the azimuth frequency aliasing using the scaling transform and the bulk azimuth compression. Compared with the traditional imaging method, the simulation validates perfectly the effectiveness of the bistatic imaging algorithm.
url http://dx.doi.org/10.1155/2018/6138709
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