A Novel Two-Step Approach of Error Estimation for Stepped-Frequency MIMO-SAR

Guo Bin Jing; Guang Cai Sun; Xiang Gen Xia; Meng Dao Xing; Zheng Bao

doi:10.1109/LGRS.2017.2762339

A Novel Two-Step Approach of Error Estimation for Stepped-Frequency MIMO-SAR

Guo Bin Jing, Guang Cai Sun^*, Xiang Gen Xia, Meng Dao Xing, Zheng Bao

^*Corresponding author for this work

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

19 Citations (Scopus)

Abstract

For a multiple-input and multiple-output synthetic aperture radar, stepped frequency chirps can be used to generate high-resolution range profiles (HRRPs) by using spectrum synthesis. However, the presence of channel phase errors may degrade the performance of HRRP synthesis. This letter presents a channel error estimation method to address this problem. First, to obtain a focused subband image, a range phase adjustment by contrast enhancement algorithm is proposed to estimate inner-channel high-order phase errors. Second, a sidelobe balanced model is established to estimate constant phase error from the relationship between the balanced sidelobe and constant phase; the constant phase error can be directly obtained in an efficient manner. Experimental analysis using real data demonstrates the effectiveness of the proposed method.

Original language	English
Article number	8093760
Pages (from-to)	2290-2294
Number of pages	5
Journal	IEEE Geoscience and Remote Sensing Letters
Volume	14
Issue number	12
DOIs	https://doi.org/10.1109/LGRS.2017.2762339
Publication status	Published - Dec 2017
Externally published	Yes

Keywords

High-resolution range profiles (HRRPs)
multiple-input and multiple-output synthetic aperture radar (MIMO-SAR)
sidelobe balanced model (SLBM)

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10.1109/LGRS.2017.2762339

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title = "A Novel Two-Step Approach of Error Estimation for Stepped-Frequency MIMO-SAR",

abstract = "For a multiple-input and multiple-output synthetic aperture radar, stepped frequency chirps can be used to generate high-resolution range profiles (HRRPs) by using spectrum synthesis. However, the presence of channel phase errors may degrade the performance of HRRP synthesis. This letter presents a channel error estimation method to address this problem. First, to obtain a focused subband image, a range phase adjustment by contrast enhancement algorithm is proposed to estimate inner-channel high-order phase errors. Second, a sidelobe balanced model is established to estimate constant phase error from the relationship between the balanced sidelobe and constant phase; the constant phase error can be directly obtained in an efficient manner. Experimental analysis using real data demonstrates the effectiveness of the proposed method.",

keywords = "High-resolution range profiles (HRRPs), multiple-input and multiple-output synthetic aperture radar (MIMO-SAR), sidelobe balanced model (SLBM)",

author = "Jing, {Guo Bin} and Sun, {Guang Cai} and Xia, {Xiang Gen} and Xing, {Meng Dao} and Zheng Bao",

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T1 - A Novel Two-Step Approach of Error Estimation for Stepped-Frequency MIMO-SAR

AU - Jing, Guo Bin

AU - Sun, Guang Cai

AU - Xia, Xiang Gen

AU - Xing, Meng Dao

AU - Bao, Zheng

PY - 2017/12

Y1 - 2017/12

N2 - For a multiple-input and multiple-output synthetic aperture radar, stepped frequency chirps can be used to generate high-resolution range profiles (HRRPs) by using spectrum synthesis. However, the presence of channel phase errors may degrade the performance of HRRP synthesis. This letter presents a channel error estimation method to address this problem. First, to obtain a focused subband image, a range phase adjustment by contrast enhancement algorithm is proposed to estimate inner-channel high-order phase errors. Second, a sidelobe balanced model is established to estimate constant phase error from the relationship between the balanced sidelobe and constant phase; the constant phase error can be directly obtained in an efficient manner. Experimental analysis using real data demonstrates the effectiveness of the proposed method.

AB - For a multiple-input and multiple-output synthetic aperture radar, stepped frequency chirps can be used to generate high-resolution range profiles (HRRPs) by using spectrum synthesis. However, the presence of channel phase errors may degrade the performance of HRRP synthesis. This letter presents a channel error estimation method to address this problem. First, to obtain a focused subband image, a range phase adjustment by contrast enhancement algorithm is proposed to estimate inner-channel high-order phase errors. Second, a sidelobe balanced model is established to estimate constant phase error from the relationship between the balanced sidelobe and constant phase; the constant phase error can be directly obtained in an efficient manner. Experimental analysis using real data demonstrates the effectiveness of the proposed method.

KW - High-resolution range profiles (HRRPs)

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A Novel Two-Step Approach of Error Estimation for Stepped-Frequency MIMO-SAR

Abstract

Keywords

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