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基于GPS层析反演和斜向返回探测反演的电离层二维电子密度重构
引用本文:基于GPS层析反演和斜向返回探测反演的电离层二维电子密度重构[J]. 电子与信息学报, 2016, 38(6): 1496-1502. doi: 10.11999/JEIT150981
基金项目:国家自然科学基金(41204111, 41574146)
摘    要:GPS层析反演和电离层斜向返回探测反演可以给出电离层大尺度2维电子浓度分布,该文基于3次电离层垂测、GPS层析探测和斜向返回探测的实验结果,比较了GPS层析反演和电离层斜向返回探测反演得到的大尺度电子密度2维分布。结果表明GPS层析和电离层斜向返回探测都能较好地重构电离层电子密度分布,反映电离层大尺度的空间结构。通过和电离层垂测结果的比较,表明GPS层析和斜向返回探测反演得到电离层F2层最大电子密度和峰高具有较好的精度。

关 键 词:电离层层析   电离层斜向返回探测   电离层电子密度
收稿时间:2015-09-06
修稿时间:2016-03-28

Two Dimensional Ionospheric Electron Density Reconstruction Based on GPS Tomography and Oblique Backscatter Inversion
Two Dimensional Ionospheric Electron Density Reconstruction Based on GPS Tomography and Oblique Backscatter Inversion[J]. Journal of Electronics & Information Technology, 2016, 38(6): 1496-1502. doi: 10.11999/JEIT150981
Abstract:Both GPS Computerized Ionosphere Tomography (CIT) and BackScatter Ionosonde (BSI) can provide two-dimensional electron density profile in large scale. Based on the result of three separate vertical ionosonde, GPS computerized ionosphere tomography and backscatter ionosonde, this paper compares the two-dimensional electron density profiles of GPS computerized ionosphere tomography and backscatter ionosonde. The results show that both methods reconstruct two-dimensional electron density profiles very well and reflect spatial structure of ionosphere. These two methods show high accuracy in the biggest electron density and peak height of F2 layer in contrast with the result of Vertical Ionosonde (VI).
Keywords:Computerized Ionosphere Tomography (CIT)  Ionospheric BackScatter Ionosonde (BSI)  Ionospheric electron density
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