Your search keyword '"Tang, Chuanjun"' showing total 7 results

1. Shallow-Layers-Detection Ice Sounding Radar for Mapping of Polar Ice Sheets

Author

Yueyi Zhang, Feng Zhang, Xiaojun Liu, Liu Yan, Shinan Lang, Bo Zhao, Xiangbin Cui, Tang Chuanjun, and Guangyou Fang

Subjects

geography, geography.geographical_feature_category, Transmitter, Antarctic ice sheet, Glacier, law.invention, Depth sounding, Direct digital synthesizer, law, Chirp, General Earth and Planetary Sciences, Electrical and Electronic Engineering, Ice sheet, Radar, Geology, Remote sensing

Abstract

The accumulation rate is a key parameter in computing the mass balance of glaciers and ice sheets to estimate sea level rise. A shallow-layers-detection ice sounding radar (SLDISR) is developed to measure the accumulation rate and shape of near-surface internal layers with high resolution. With a transmitting frequency from 500 to 2000 MHz, this frequency-modulated continuous wave (FMCW) radar provides a range resolution of about 16 cm in free space by using a Hanning window and a penetrating depth about 150 m under polar ice. The spectral analysis and coherent integration techniques are used to obtain a high processing gain and to improve the signal-to-noise ratio of the system. A phase-locked loop with wideband yttrium iron garnet (YIG) oscillator is applied to generate a sweeping chirp signal as an input source for the transmitter. A stable, low-frequency reference chirp signal is generated with a direct digital synthesizer (DDS) integrated in field-programmable gate array (FPGA). To reduce the high-speed requirement to the analog-to-digital converter (ADC), dechirp technology is adopted at the RF section of the receiver. The implementation of the digital unit is based on an FPGA chip. The designed radar has been successfully deployed in Antarctica during the 31st Chinese Antarctic Research Expedition (CHINARE 31) and CHINARE 33, mainly over the East Antarctic Ice Sheet (EAIS). The echograms indicate the effectiveness of the radar system on detecting clear internal reflecting horizons (IRHs) over ice sheets.

Published

2022

2. The Design of Payload Lunar Regolith Penetrating Radar on Chang'E-5 Lander

Author

Liu Qing, Wei Lu, Bin Zhou, Shen Shaoxiang, Tang Chuanjun, Guangyou Fang, Li Wang, and Li Yuxi

Subjects

business.industry, Payload, Aerospace Engineering, Sampling (statistics), Drilling, Regolith, law.invention, Space and Planetary Science, law, Radar imaging, Calibration, Lunar soil, Electrical and Electronic Engineering, Aerospace engineering, Radar, business, Geology

Abstract

Sampling return in Chang'E-5 (CE-5) mission is the third phase of three strategic steps of China's lunar program. The three strategic steps are orbiting, landing, and returning. The sampling and drilling device is mounted on the Lander. One task of the CE-5 Lunar Regolith Penetrating Radar (LRPR) is to provide information support for the drilling and sampling device. This article introduces the scientific objectives of CE-5 LRPR and the difference with Chang'E-3 lunar penetrating radar. The system design, working principle, imaging, and calibration methods of LRPR are the highlight. Considering that the Lander is stationary, and its bottom is about 90 cm from the lunar surface, an antenna array is adopted to probe the subsurface structure and the regolith thickness for supporting the drilling. The design uses a pre-amplifier circuit to increase the dynamic range of the whole system, which enhances the detection effect of shallow lunar soil structure. For verifying the probing ability of LRPR, the marble slabs, metal balls, and stones are buried in the volcanic ash pool in advance for detection and verification. The pre-stack Kirchhoff depth migration imaging method is adopted to identify the burial depth and thickness of the target. The verification results meet the task requirements.

Published

2021

3. A Split-Type FMICW-based Guided Wave Radar with Multi-segmental Probe for Liquid Level Measurement

Author

Zhao, Bo, primary, Xu, Yuanhong, additional, Zhang, Yueyi, additional, Shen, Shaoxiang, additional, Tang, Chuanjun, additional, Liu, Xiaojun, additional, and Fang, Guangyou, additional

Published

2022

4. Shallow-Layers-Detection Ice Sounding Radar for Mapping of Polar Ice Sheets

Author

Zhao, Bo, primary, Zhang, Yueyi, additional, Lang, Shinan, additional, Liu, Yan, additional, Zhang, Feng, additional, Tang, Chuanjun, additional, Liu, Xiaojun, additional, Fang, Guangyou, additional, and Cui, Xiangbin, additional

Published

2022

5. High-Resolution Ice-Sounding Radar Measurements of Ice Thickness Over East Antarctic Ice Sheet as a Part of Chinese National Antarctic Research Expedition

Author

Bo Zhao, Dezhi Li, Feng Zhang, Guangyou Fang, Shinan Lang, Liu Qing, Xiaojun Liu, and Tang Chuanjun

Subjects

Synthetic aperture radar, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 0211 other engineering and technologies, Antarctic ice sheet, Glacier, 02 engineering and technology, 01 natural sciences, law.invention, Depth sounding, law, Chirp, General Earth and Planetary Sciences, Clutter, Electrical and Electronic Engineering, Radar, Ice sheet, Geology, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing

Abstract

This paper presents the ice thickness, fine resolution internal reflecting horizons (IRHs), and distinct bottom topography measurements of Chinese Kunlun Station and Grove Mountains, Antarctica, derived from sounding these glaciers with a high-resolution radar. To enable the development of next-generation ice-sheet models, we need information on IRHs, bottom topography, and basal conditions. To this end, we performed measurements with the progressively improved ice-sounding radar system, currently known as the high-resolution ice-sounding radar developed by the Key Laboratory of Electromagnetic Radiation and Sensing Technology of Institute of Electronics, Chinese Academy of Sciences, Beijing, China. We processed the collected data using focused synthetic aperture radar (SAR) algorithm named the modified range migration algorithm using curvelets and the modified nonlinear chirp scaling algorithm to improve radar sensitivity and reduce along-track surface clutter. Representative results from selected transects indicate that we successfully sounded 3-km-thick ice with a fine resolution of 0.75 m. In this paper, we provide a brief description of the radar system, discuss the focused SAR processing algorithms, and provide sample results to demonstrate the successful sounding of the ice sheet in Antarctica.

Published

2018

6. The Design of Payload Lunar Regolith Penetrating Radar on Chang'E-5 Lander

Author

Shen, ShaoXiang, primary, Zhou, Bin, additional, Li, YuXi, additional, Lu, Wei, additional, Liu, Qing, additional, Tang, ChuanJun, additional, Fang, GuangYou, additional, and Wang, Li, additional

Published

2021

7. High-Resolution Ice-Sounding Radar Measurements of Ice Thickness Over East Antarctic Ice Sheet as a Part of Chinese National Antarctic Research Expedition

Author

Liu, Xiaojun, primary, Lang, Shinan, additional, Zhao, Bo, additional, Zhang, Feng, additional, Liu, Qing, additional, Tang, Chuanjun, additional, Li, Dezhi, additional, and Fang, Guangyou, additional

Published

2018