FPGA Implementation of SAR Imaging Processing System

2019 6th Asia-Pacific Conference on Synthetic Aperture Radar (APSAR) Pub Date : 2019-11-01 DOI:10.1109/APSAR46974.2019.9048543

Rui Liu, Daiyin Zhu, Die Wang, Wanwan Du

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引用次数: 3

Abstract

The miniaturized synthetic aperture radar (MiniSAR) signal processing system is designed and implemented in this paper, which is able to deal with chirped SAR signals based on FPGA. In this design, the Polar Format Algorithm (PFA) using the principle of chirp scaling (PCS) for range processing and Sinc interpolation for azimuth processing can achieve high precision results and increase speed significantly. Meanwhile, the phase gradient autofocus (PGA) and the geometric correction (GC) are applied to estimate and compensate for the residual phase error accurately and realize wavefront curvature correction caused by PFA. The system uses the Floating-Point IP cores and pipeline structure to achieve high-speed floating-point data computation, and uses a smart scheme to realize the transposition of matrix data demanded by the system algorithm with DDR3 SDRAM. The system is built on Virtex7-XC7VX690T evaluation board, and it takes 2.1s to obtain 4K*2K complex-image in single precision. Point target simulation has validated the presented methodology, and the real data processing results verify the reliability and stability of the proposed system.

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SAR成像处理系统的FPGA实现

本文设计并实现了基于FPGA的小型合成孔径雷达(MiniSAR)信号处理系统，该系统能够处理啁啾SAR信号。在本设计中，利用啁啾缩放(PCS)原理进行距离处理，利用Sinc插值原理进行方位角处理的极坐标格式算法(Polar Format Algorithm, PFA)可以获得高精度结果，并显著提高速度。同时，采用相位梯度自动聚焦(PGA)和几何校正(GC)对残差进行精确估计和补偿，实现了由相位梯度自动聚焦引起的波前曲率校正。系统采用浮点IP核和流水线结构实现高速浮点数据计算，并采用智能方案用DDR3 SDRAM实现系统算法所需的矩阵数据的转置。系统基于Virtex7-XC7VX690T评估板，单精度获取4K*2K复杂图像耗时2.1s。点目标仿真验证了所提方法的有效性，实际数据处理结果验证了所提系统的可靠性和稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2019 6th Asia-Pacific Conference on Synthetic Aperture Radar (APSAR)

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