A high-resolution polar ice penetrating radar and experiments in the 28th Chinese National Antarctic Research Expedition

Proceedings of the 15th International Conference on Ground Penetrating Radar Pub Date : 2014-12-04 DOI:10.1109/ICGPR.2014.6970521

Xiaojun Liu, S. Lang, Bo Zhao, Feng Zhang, Jun Li, Bin Zhou, G. Fang, X. Cui, Bo Sun

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引用次数: 1

Abstract

Polar ice penetrating radar is one of the most important devices for polar ice depth sounding. A high resolution ice-penetrating radar is developed to measure the thickness of glacial ice and observe the internal structures and basal conditions of glaciers and ice sheets. With a transmitting frequency at 100-150 MHz, this radar provides a range resolution of about 2m and a penetrating depth about 3000m under polar ice. The radar system uses pulse compression and coherent integration techniques to obtain a high processing gain and improve the signal to noise ratio of the system. A high-speed Direct Digital Synthesizer (DDS) is applied to generate a chirp signal as an input source for the transmitter. The implementation of the digital unit is based on a piece of FPGA chip. To reduce the hardware complexity, intermediate frequency sampling is adopted to digitalize the received analog signal. The measurements were successfully implemented in the 28th Chinese National Antarctic Research Expedition (CHINARE 28, 2011/12) near China Zhongshan Station.

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中国第28次南极科考考察队高分辨率极地破冰雷达与实验

极冰穿透雷达是极冰测深的重要设备之一。研制了一种高分辨率冰透雷达，用于测量冰川厚度，观测冰川和冰盖的内部结构和基础状况。发射频率在100-150 MHz，该雷达提供大约2m的距离分辨率和在极地冰下约3000米的穿透深度。雷达系统采用脉冲压缩和相干积分技术，获得了较高的处理增益，提高了系统的信噪比。采用高速直接数字合成器(DDS)产生啁啾信号作为发射机的输入源。数字单元的实现是基于一块FPGA芯片。为了降低硬件复杂度，采用中频采样对接收到的模拟信号进行数字化处理。中国第28次国家南极科学考察(CHINARE 28,2011 /12)在中国中山站附近成功实施了这些测量。

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Proceedings of the 15th International Conference on Ground Penetrating Radar

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