Study on two-step imaging based on azimuthal dechirp in space-borne sliding spotlight SAR

Ze Gang Ding; Fei Feng Liu; Tao Zeng

Study on two-step imaging based on azimuthal dechirp in space-borne sliding spotlight SAR

Ze Gang Ding^*, Fei Feng Liu, Tao Zeng

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Based on dechirp processing, the two step imaging can effectively decrease the Doppler bandwidth of the echo in space borne sliding spotlight SAR. In order to overcome the alias of the echo, pulse repeation frequency (PRF) should be larger than the residual Doppler bandwidth of the dechirped azimuth signal, which is the fundamental of the two step imaging algorithm. Firstly, the formula of the residual Doppler band-width (RDB) of dechirped azimuth signal in the range frequency and azimuth time domains, which was related to the transmitted bandwidth, azimuth beam width and the azimuth rotation angle, was derived. Secondly, the influence of the window function of the dechirped azimuth signal in two dimensional time domains was analyzed by introducing range migration, and the derived RDB formula was analyzed and validated. Finally, the simulation results validate the analysis.

Original language	English
Pages (from-to)	95-102
Number of pages	8
Journal	Binggong Xuebao/Acta Armamentarii
Volume	33
Issue number	1
Publication status	Published - Jan 2012

Keywords

Dechirp processing
Radar engineering
Residual Doppler bandwidth
Space-borne sliding spotlight SAR
Two-step imaging algorithm

Cite this

Ding, Z. G., Liu, F. F., & Zeng, T. (2012). Study on two-step imaging based on azimuthal dechirp in space-borne sliding spotlight SAR. Binggong Xuebao/Acta Armamentarii, 33(1), 95-102.

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abstract = "Based on dechirp processing, the two step imaging can effectively decrease the Doppler bandwidth of the echo in space borne sliding spotlight SAR. In order to overcome the alias of the echo, pulse repeation frequency (PRF) should be larger than the residual Doppler bandwidth of the dechirped azimuth signal, which is the fundamental of the two step imaging algorithm. Firstly, the formula of the residual Doppler band-width (RDB) of dechirped azimuth signal in the range frequency and azimuth time domains, which was related to the transmitted bandwidth, azimuth beam width and the azimuth rotation angle, was derived. Secondly, the influence of the window function of the dechirped azimuth signal in two dimensional time domains was analyzed by introducing range migration, and the derived RDB formula was analyzed and validated. Finally, the simulation results validate the analysis.",

keywords = "Dechirp processing, Radar engineering, Residual Doppler bandwidth, Space-borne sliding spotlight SAR, Two-step imaging algorithm",

author = "Ding, {Ze Gang} and Liu, {Fei Feng} and Tao Zeng",

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AU - Ding, Ze Gang

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AB - Based on dechirp processing, the two step imaging can effectively decrease the Doppler bandwidth of the echo in space borne sliding spotlight SAR. In order to overcome the alias of the echo, pulse repeation frequency (PRF) should be larger than the residual Doppler bandwidth of the dechirped azimuth signal, which is the fundamental of the two step imaging algorithm. Firstly, the formula of the residual Doppler band-width (RDB) of dechirped azimuth signal in the range frequency and azimuth time domains, which was related to the transmitted bandwidth, azimuth beam width and the azimuth rotation angle, was derived. Secondly, the influence of the window function of the dechirped azimuth signal in two dimensional time domains was analyzed by introducing range migration, and the derived RDB formula was analyzed and validated. Finally, the simulation results validate the analysis.

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KW - Radar engineering

KW - Residual Doppler bandwidth

KW - Space-borne sliding spotlight SAR

KW - Two-step imaging algorithm

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Study on two-step imaging based on azimuthal dechirp in space-borne sliding spotlight SAR

Abstract

Keywords

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