An FPGA-based real-time UAV SAR raw signal simulator

Wei Li; Houxiang Zhang; Hans Petter Hildre; Jun Wang

doi:10.1587/elex.11.20140168

An FPGA-based real-time UAV SAR raw signal simulator

Wei Li^*
, Houxiang Zhang
, Hans Petter Hildre
, Jun Wang

^*Corresponding author for this work

School of Electronic and Information Engineering

Norwegian University of Science and Technology

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

6 Scopus citations

Abstract

Faced with the high computational complexity of UAV SAR raw signal simulators, a multi-FPGA system is developed. The system is based on a time-domain raw signal algorithm which can compute in real time and can be used for closed-loop simulation. In order to improve the efficiency of the SAR slant range computing, a modified non-restoring squire root algorithm for FPGA is designed. An improved method is presented to perform coherent accumulation of raw signal to decrease memory cost. The pipelined FFT and IFFT are used to compute the convolution in order to reduce delay. The SAR raw signal generation system is implemented and verified with real-time performance. It can simulate an imaging scene size of 640 * 640 point scatters with a PRF higher than 40 kHz.

Original language	English
Article number	20140168
Journal	IEICE Electronics Express
Volume	11
Issue number	11
DOIs	https://doi.org/10.1587/elex.11.20140168
State	Published - 19 Mar 2014

Keywords

FPGA
SAR
UAV

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10.1587/elex.11.20140168

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abstract = "Faced with the high computational complexity of UAV SAR raw signal simulators, a multi-FPGA system is developed. The system is based on a time-domain raw signal algorithm which can compute in real time and can be used for closed-loop simulation. In order to improve the efficiency of the SAR slant range computing, a modified non-restoring squire root algorithm for FPGA is designed. An improved method is presented to perform coherent accumulation of raw signal to decrease memory cost. The pipelined FFT and IFFT are used to compute the convolution in order to reduce delay. The SAR raw signal generation system is implemented and verified with real-time performance. It can simulate an imaging scene size of 640 * 640 point scatters with a PRF higher than 40 kHz.",

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N2 - Faced with the high computational complexity of UAV SAR raw signal simulators, a multi-FPGA system is developed. The system is based on a time-domain raw signal algorithm which can compute in real time and can be used for closed-loop simulation. In order to improve the efficiency of the SAR slant range computing, a modified non-restoring squire root algorithm for FPGA is designed. An improved method is presented to perform coherent accumulation of raw signal to decrease memory cost. The pipelined FFT and IFFT are used to compute the convolution in order to reduce delay. The SAR raw signal generation system is implemented and verified with real-time performance. It can simulate an imaging scene size of 640 * 640 point scatters with a PRF higher than 40 kHz.

AB - Faced with the high computational complexity of UAV SAR raw signal simulators, a multi-FPGA system is developed. The system is based on a time-domain raw signal algorithm which can compute in real time and can be used for closed-loop simulation. In order to improve the efficiency of the SAR slant range computing, a modified non-restoring squire root algorithm for FPGA is designed. An improved method is presented to perform coherent accumulation of raw signal to decrease memory cost. The pipelined FFT and IFFT are used to compute the convolution in order to reduce delay. The SAR raw signal generation system is implemented and verified with real-time performance. It can simulate an imaging scene size of 640 * 640 point scatters with a PRF higher than 40 kHz.

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KW - SAR

KW - UAV

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An FPGA-based real-time UAV SAR raw signal simulator

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Keywords

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