全球定位系统在双极共轭点的日地观测

W. Suparta, M. Abdullah, M. Ali, B. Yatim, N. Sato, A. Kadokura, G. Bjornsson, G. Fraser
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引用次数: 1

摘要

GPS技术是探索近地空间环境以改进空间天气预报的重要工具,为研究日-气候关系提供了合适的平台。利用来自地面GPS观测的大气可降水量(PWV)作为地面响应,电离层总电子含量(TEC)作为太阳活动的测量,可以解释太阳活动如何影响天气/气候变化的一些物理机制。本文介绍了TEC和PWV的特性,利用地基GPS接收机通过双极共轭点来洞察太阳-地球耦合机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solar-terrestrial observations at bipolar conjugate points using global positioning system
GPS technique is an essential tool to explore of the near-Earth space environment towards improved space weather prediction and such methods provide suitable platforms for the studies solar-climate relationships. Using the atmospheric precipitable water vapour (PWV) as a terrestrial response and the ionospheric total electron content (TEC) as a measure solar activity which both derived from ground-based GPS observations, some physical mechanisms of how solar activity exerts their influences on weather/climate changes can be explained. This paper presents an characterization of both TEC and PWV using ground-based GPS receivers to insight Sun-Earth coupling mechanisms through bipolar conjugate points.
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