A new reconfigurable methodology to implement the shiftand-correlate (SAC) algorithm for real-time SAR autofocusing

Bingyi Li; Yizhuang Xie; Xiaoning Liu; Yi Deng

A new reconfigurable methodology to implement the shiftand-correlate (SAC) algorithm for real-time SAR autofocusing

Bingyi Li, Yizhuang Xie^*, Xiaoning Liu, Yi Deng

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to conference › Paper › peer-review

4 Citations (Scopus)

Abstract

Doppler Frequency Rate (FDR) is an essential parameter in the procedure of Synthetic Aperture Radar (SAR) processing. In this paper, we investigate an achievable autofocus algorithm, shift-and-correlate (SAC), and design the implementation of FDR estimation. The proposed method can dramatically improve the accuracy of imaging and reduce the time delay of the SAR imaging process. Depth-of-focus theory and linear fitting theory are discussed in this paper for decreasing the computation-consumption and the preserving precision. We verify the proposed method in a 16384∗16384 SAR imaging process at 100 MHz system clock on a dedicated designed Field Programmable Gate Array (FPGA) tested. To testify the feasibility of the proposed method, we compared our run-out results with existing implementations using traditional DSP and MATLAB methods in terms of real-time performance and imaging quality.

Original language	English
Publication status	Published - 2015
Event	IET International Radar Conference 2015 - Hangzhou, China Duration: 14 Oct 2015 → 16 Oct 2015

Conference

Conference	IET International Radar Conference 2015
Country/Territory	China
City	Hangzhou
Period	14/10/15 → 16/10/15

Keywords

FDR
FPGA
Real-time
SAC algorithm
SAR imaging

Cite this

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title = "A new reconfigurable methodology to implement the shiftand-correlate (SAC) algorithm for real-time SAR autofocusing",

abstract = "Doppler Frequency Rate (FDR) is an essential parameter in the procedure of Synthetic Aperture Radar (SAR) processing. In this paper, we investigate an achievable autofocus algorithm, shift-and-correlate (SAC), and design the implementation of FDR estimation. The proposed method can dramatically improve the accuracy of imaging and reduce the time delay of the SAR imaging process. Depth-of-focus theory and linear fitting theory are discussed in this paper for decreasing the computation-consumption and the preserving precision. We verify the proposed method in a 16384∗16384 SAR imaging process at 100 MHz system clock on a dedicated designed Field Programmable Gate Array (FPGA) tested. To testify the feasibility of the proposed method, we compared our run-out results with existing implementations using traditional DSP and MATLAB methods in terms of real-time performance and imaging quality.",

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author = "Bingyi Li and Yizhuang Xie and Xiaoning Liu and Yi Deng",

year = "2015",

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note = "IET International Radar Conference 2015 ; Conference date: 14-10-2015 Through 16-10-2015",

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T1 - A new reconfigurable methodology to implement the shiftand-correlate (SAC) algorithm for real-time SAR autofocusing

AU - Li, Bingyi

AU - Xie, Yizhuang

AU - Liu, Xiaoning

AU - Deng, Yi

PY - 2015

Y1 - 2015

N2 - Doppler Frequency Rate (FDR) is an essential parameter in the procedure of Synthetic Aperture Radar (SAR) processing. In this paper, we investigate an achievable autofocus algorithm, shift-and-correlate (SAC), and design the implementation of FDR estimation. The proposed method can dramatically improve the accuracy of imaging and reduce the time delay of the SAR imaging process. Depth-of-focus theory and linear fitting theory are discussed in this paper for decreasing the computation-consumption and the preserving precision. We verify the proposed method in a 16384∗16384 SAR imaging process at 100 MHz system clock on a dedicated designed Field Programmable Gate Array (FPGA) tested. To testify the feasibility of the proposed method, we compared our run-out results with existing implementations using traditional DSP and MATLAB methods in terms of real-time performance and imaging quality.

AB - Doppler Frequency Rate (FDR) is an essential parameter in the procedure of Synthetic Aperture Radar (SAR) processing. In this paper, we investigate an achievable autofocus algorithm, shift-and-correlate (SAC), and design the implementation of FDR estimation. The proposed method can dramatically improve the accuracy of imaging and reduce the time delay of the SAR imaging process. Depth-of-focus theory and linear fitting theory are discussed in this paper for decreasing the computation-consumption and the preserving precision. We verify the proposed method in a 16384∗16384 SAR imaging process at 100 MHz system clock on a dedicated designed Field Programmable Gate Array (FPGA) tested. To testify the feasibility of the proposed method, we compared our run-out results with existing implementations using traditional DSP and MATLAB methods in terms of real-time performance and imaging quality.

KW - FDR

KW - FPGA

KW - Real-time

KW - SAC algorithm

KW - SAR imaging

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M3 - Paper

AN - SCOPUS:84973575185

T2 - IET International Radar Conference 2015

Y2 - 14 October 2015 through 16 October 2015

ER -

A new reconfigurable methodology to implement the shiftand-correlate (SAC) algorithm for real-time SAR autofocusing

Abstract

Conference

Keywords

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