NISAR L-band digital electronics subsystem: A multichannel system with distributed processors for digital beam forming and mode dependent filtering

2016 IEEE Radar Conference (RadarConf) Pub Date : 2016-05-02 DOI:10.1109/RADAR.2016.7485225

Chung-Lun Chuang, S. Shaffer, N. Niamsuwan, Samuel Li, E. Liao, C. Lim, Vu A. Duong, Barry Volain, K. Vines, Muh-Wang Yang, K. Wheeler

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引用次数: 6

Abstract

The NASA-ISRO Synthetic Aperture Radar (NISAR) L-band SAR instrument employs multiple digital channels to optimize resolution while keeping a large swath on a single pass. High-speed digitization with fine synchronization and digital beam forming are necessary in order to facilitate this new technique called SweepSAR. An architecture employing multiple FPGA based digital signal processors has been conceived to facilitate digital calibration on an individual channel basis as well as digital signal processing to optimize the receive signal. On-board processing and data compression has been implemented to reduce the volume of data in order to satisfy the operational requirements of near global coverage for the desired science targets. A novel command and timing architecture was developed to manage this complex system to meet the challenging project requirements. The NISAR L-band Digital Electronics Subsystem is the combination of the hardware, firmware and software components architected and implemented to operate this radar and return the desired quantity and quality of data for the science community.

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NISAR l波段数字电子子系统:一个多通道系统，具有用于数字波束形成和模式相关滤波的分布式处理器

NASA-ISRO合成孔径雷达(NISAR) l波段SAR仪器采用多个数字通道来优化分辨率，同时在单次通过时保持较大的条带。高速数字化与精细同步和数字波束形成是实现这种新技术的必要条件。采用基于多个FPGA的数字信号处理器的架构已经被设想为促进单个通道上的数字校准以及数字信号处理以优化接收信号。已实施星载处理和数据压缩，以减少数据量，以满足对所需科学目标的近全球覆盖的操作要求。开发了一种新的命令和定时体系结构来管理这个复杂的系统，以满足具有挑战性的项目需求。NISAR l波段数字电子子系统是硬件、固件和软件组件的组合，用于操作该雷达，并为科学界返回所需的数据数量和质量。

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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2016 IEEE Radar Conference (RadarConf)

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