实时运动数据测定电离层总电子含量的实现

2012 Third International Conference on Intelligent Systems Modelling and Simulation Pub Date : 2012-02-08 DOI:10.1109/ISMS.2012.52

N. H. M. Hanif, M. A. Haron, M. H. Jusoh, S. A. Al Junid, M. Idros, F. N. Osman, Z. Othman

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引用次数: 6

摘要

电离层是通信系统的重要介质。在这一层，由于太阳极端紫外线辐射的电离作用，总电子含量存在，同时，夜间电离层的电子含量因化学重组而减少。最大总电子含量(TEC)在当地时间0500 (LTC)检测到，并将逐渐下降，并在2200 (LTC)达到最小值。白天的TEC比晚上高。来自太阳的紫外线(UV)辐射使部分中性大气电离，形成电离层。卫星的仰角也会影响TEC值。俯仰角越大，垂直TEC值也越大。RINEX格式的GPS站数据由马来西亚测绘局提供。数据来自两个不同的站点，分别是位于波斯的阿劳GPS站和柔佛的马来西亚科技大学Skudai GPS站。

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Implementation of Real-Time Kinematic Data to Determine the Ionospheric Total Electron Content

Ionosphere layer is an important medium in communication system. At this layer where the total electron content exist because of ionization by the Sun's extreme ultraviolet radiation, meanwhile the night side ionosphere electron content is reduced by chemical recombination. Maximum Total Electron Content (TEC) was detected at 0500 Local Time Clock (LTC) and will decrease gradually and reached its minimum at 2200 LTC. TEC during the day is higher than at night. The ultraviolet (UV) radiation from the sun ionizes fractions of the neutral atmosphere and forms the ionosphere. The elevation angle of satellite will also influence the TEC value. The higher elevation angle, the value of vertical TEC will also increase. The data from GPS Stations in RINEX format is supplied by Department of Survey and Mapping Malaysia (JUPEM). The data is taken from two different stations located at GPS Station Arau, Perlis and GPS Station Universiti Teknologi Malaysia Skudai, Johor.

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2012 Third International Conference on Intelligent Systems Modelling and Simulation

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