Forward Scatter Radar SISAR imaging: Theory and primary experimental results analysis

Hu Cheng; Zhou Chao; Zhu Canyan; Liu Haibo; Zeng Tao

Forward Scatter Radar SISAR imaging: Theory and primary experimental results analysis

Hu Cheng, Zhou Chao, Zhu Canyan, Liu Haibo, Zeng Tao

School of Information and Electronics

Soochow University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Citations (Scopus)

Abstract

The extraction of a radio holography signal (RHS) is the precondition of shadow inverse synthetic aperture radar (SISAR) imaging. However, the target return usually has a relatively high carrier and narrow bandwidth when detecting ground moving targets, which makes it difficult to achieve the baseband signal with synchronous demodulation in a conventional Forward Scatter Radar (FSR) system. Thus a new method for RHS reconstruction is put forward in this paper. The method consists of envelope detection, segmental Hilbert transform and amplitude compensation. With these steps the target RHS can be accurately reconstructed and target profiles can be extracted via the SISAR algorithm. The effectiveness of this method is verified with both simulation and experimental data processing results.

Original language	English
Title of host publication	International Radar Symposium, IRS 2013 - Proceedings
Pages	643-648
Number of pages	6
Publication status	Published - 2013
Event	2013 14th International Radar Symposium, IRS 2013 - Dresden, Germany Duration: 19 Jun 2013 → 21 Jun 2013

Publication series

Name	Proceedings International Radar Symposium
Volume	2
ISSN (Print)	2155-5753

Conference

Conference	2013 14th International Radar Symposium, IRS 2013
Country/Territory	Germany
City	Dresden
Period	19/06/13 → 21/06/13

Cite this

@inproceedings{e9ba73f4519641829b90d32a290d4540,

title = "Forward Scatter Radar SISAR imaging: Theory and primary experimental results analysis",

abstract = "The extraction of a radio holography signal (RHS) is the precondition of shadow inverse synthetic aperture radar (SISAR) imaging. However, the target return usually has a relatively high carrier and narrow bandwidth when detecting ground moving targets, which makes it difficult to achieve the baseband signal with synchronous demodulation in a conventional Forward Scatter Radar (FSR) system. Thus a new method for RHS reconstruction is put forward in this paper. The method consists of envelope detection, segmental Hilbert transform and amplitude compensation. With these steps the target RHS can be accurately reconstructed and target profiles can be extracted via the SISAR algorithm. The effectiveness of this method is verified with both simulation and experimental data processing results.",

author = "Hu Cheng and Zhou Chao and Zhu Canyan and Liu Haibo and Zeng Tao",

year = "2013",

language = "English",

isbn = "9783954042234",

series = "Proceedings International Radar Symposium",

pages = "643--648",

booktitle = "International Radar Symposium, IRS 2013 - Proceedings",

note = "2013 14th International Radar Symposium, IRS 2013 ; Conference date: 19-06-2013 Through 21-06-2013",

}

TY - GEN

T1 - Forward Scatter Radar SISAR imaging

T2 - 2013 14th International Radar Symposium, IRS 2013

AU - Cheng, Hu

AU - Chao, Zhou

AU - Canyan, Zhu

AU - Haibo, Liu

AU - Tao, Zeng

PY - 2013

Y1 - 2013

N2 - The extraction of a radio holography signal (RHS) is the precondition of shadow inverse synthetic aperture radar (SISAR) imaging. However, the target return usually has a relatively high carrier and narrow bandwidth when detecting ground moving targets, which makes it difficult to achieve the baseband signal with synchronous demodulation in a conventional Forward Scatter Radar (FSR) system. Thus a new method for RHS reconstruction is put forward in this paper. The method consists of envelope detection, segmental Hilbert transform and amplitude compensation. With these steps the target RHS can be accurately reconstructed and target profiles can be extracted via the SISAR algorithm. The effectiveness of this method is verified with both simulation and experimental data processing results.

AB - The extraction of a radio holography signal (RHS) is the precondition of shadow inverse synthetic aperture radar (SISAR) imaging. However, the target return usually has a relatively high carrier and narrow bandwidth when detecting ground moving targets, which makes it difficult to achieve the baseband signal with synchronous demodulation in a conventional Forward Scatter Radar (FSR) system. Thus a new method for RHS reconstruction is put forward in this paper. The method consists of envelope detection, segmental Hilbert transform and amplitude compensation. With these steps the target RHS can be accurately reconstructed and target profiles can be extracted via the SISAR algorithm. The effectiveness of this method is verified with both simulation and experimental data processing results.

UR - http://www.scopus.com/inward/record.url?scp=84884144675&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:84884144675

SN - 9783954042234

T3 - Proceedings International Radar Symposium

SP - 643

EP - 648

BT - International Radar Symposium, IRS 2013 - Proceedings

Y2 - 19 June 2013 through 21 June 2013

ER -

Forward Scatter Radar SISAR imaging: Theory and primary experimental results analysis

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