Estimation and application of phase offsets of Chungli VHF radar system
博士 === 國立中央大學 === 太空科學研究所 === 107 === The phase imbalance between receiving channels of a phase array antenna, referred to as phase offset, is one of the most crucial parameters in positioning the targets in lower and upper atmospheres using spatial domain interferometry (SDI) technique. In this stu...
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ndltd-TW-107NCU050690072019-10-22T05:28:12Z http://ndltd.ncl.edu.tw/handle/g78qf9 Estimation and application of phase offsets of Chungli VHF radar system 中壢特高頻雷達系統初始相位偏差估計與應用 Ting-Han Lin 林廷翰 博士 國立中央大學 太空科學研究所 107 The phase imbalance between receiving channels of a phase array antenna, referred to as phase offset, is one of the most crucial parameters in positioning the targets in lower and upper atmospheres using spatial domain interferometry (SDI) technique. In this study, we develop a method of using commercial aircraft that equips with Automatic Dependent Surveillance-Broadcast (ADS-B) system to estimate the system phase offsets of the Chungli VHF radar. The aviation data broadcasted from ADS-B system combined with the radar returns from the aircraft can obtain the system phase offset. The principle of the method and the algorithms of processing the ADS-B messages are described and the procedures of analyzing the aircraft echoes are also detailed in this study. On the basis of this method, multirotor equipped with a high precision GPS receiver is also employed to estimate radar system phase offset. The results show that the system phase offsets estimated by the aircraft and those from the multirotor are consistent. However, the aircraft/multirotor-derived system phase offsets are very different from those estimated from the radar returns of the 3-meter ionospheric field-aligned plasma irregularities (FAIs) combined with International Geomagnetic Reference Field 12th generation (IGRF-12) model. The principle of the FAIs method is introduced and the plausible causes of the discrepancies in the estimated system phase offsets between aircraft/multirotor and FAIs are discussed. Additionally, based on the estimation result of phase offsets of Chungli VHF radar, the calibrated interferometry results of FAIs during four months in summer are calculated, that is, the fine structure of FAIs can be constructed clearly. The interferometry result shows that the statistical characteristics of total power, spectral width, Doppler shift, height and Doppler velocity shear of FAIs structure have temporal and spatial variations in Es region, furthermore, comparisons between characteristics of FAIs are made and discussed in this study. Yen‐Hsyang Chu 朱延祥 2019 學位論文 ; thesis 230 zh-TW |
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博士 === 國立中央大學 === 太空科學研究所 === 107 === The phase imbalance between receiving channels of a phase array antenna, referred to as phase offset, is one of the most crucial parameters in positioning the targets in lower and upper atmospheres using spatial domain interferometry (SDI) technique. In this study, we develop a method of using commercial aircraft that equips with Automatic Dependent Surveillance-Broadcast (ADS-B) system to estimate the system phase offsets of the Chungli VHF radar. The aviation data broadcasted from ADS-B system combined with the radar returns from the aircraft can obtain the system phase offset. The principle of the method and the algorithms of processing the ADS-B messages are described and the procedures of analyzing the aircraft echoes are also detailed in this study. On the basis of this method, multirotor equipped with a high precision GPS receiver is also employed to estimate radar system phase offset. The results show that the system phase offsets estimated by the aircraft and those from the multirotor are consistent. However, the aircraft/multirotor-derived system phase offsets are very different from those estimated from the radar returns of the 3-meter ionospheric field-aligned plasma irregularities (FAIs) combined with International Geomagnetic Reference Field 12th generation (IGRF-12) model. The principle of the FAIs method is introduced and the plausible causes of the discrepancies in the estimated system phase offsets between aircraft/multirotor and FAIs are discussed. Additionally, based on the estimation result of phase offsets of Chungli VHF radar, the calibrated interferometry results of FAIs during four months in summer are calculated, that is, the fine structure of FAIs can be constructed clearly. The interferometry result shows that the statistical characteristics of total power, spectral width, Doppler shift, height and Doppler velocity shear of FAIs structure have temporal and spatial variations in Es region, furthermore, comparisons between characteristics of FAIs are made and discussed in this study.
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author2 |
Yen‐Hsyang Chu |
author_facet |
Yen‐Hsyang Chu Ting-Han Lin 林廷翰 |
author |
Ting-Han Lin 林廷翰 |
spellingShingle |
Ting-Han Lin 林廷翰 Estimation and application of phase offsets of Chungli VHF radar system |
author_sort |
Ting-Han Lin |
title |
Estimation and application of phase offsets of Chungli VHF radar system |
title_short |
Estimation and application of phase offsets of Chungli VHF radar system |
title_full |
Estimation and application of phase offsets of Chungli VHF radar system |
title_fullStr |
Estimation and application of phase offsets of Chungli VHF radar system |
title_full_unstemmed |
Estimation and application of phase offsets of Chungli VHF radar system |
title_sort |
estimation and application of phase offsets of chungli vhf radar system |
publishDate |
2019 |
url |
http://ndltd.ncl.edu.tw/handle/g78qf9 |
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