Analysis of Ionospheric Scintillations Measurement on NavIC Signals

International Journal of Engineering and Advanced Technology Pub Date : 2022-12-30 DOI:10.35940/ijeat.b3950.1212222

K. Praveena, Prof. Perumalla Naveen Kumar, Prof. D. Krishna Reddy

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Abstract

Ionospheric scintillation is a rapid change in amplitude and phase of an electromagnetic signal in the ionospheric environment. Amplitude scintillations indicated by S4 index and phase scintillations by. Low latitude regions are prone to ionosphere scintillation. Since India is a low latitude region, ionospheric scintillations must be analysed. Indian NavIC or IRNSS planned and implemented by the Indian Space Research Organization (ISRO). In this paper S4 index is investigated for NavIC L5 (1.17645 GHz) and S1 (2.492028 GHz) signals (1B,1C,1D,1E,1F,1G). For the analysis Guntur station (Lat:16.44N, Lon:80.62E) and Hyderabad station (Lat:17°24’28.10″N, Lon: 78°31′4.22″E) IGS receiver data is considered. The S4 index is calculated using carrier to noise ratio of IRNSS L5 and S band signals. From the results it is observed that S4 index is more for L5 band signals compared to S band signals, as ionospheric scintillations are frequency dependent. Guntur station S4 average value is low for all (L5 and S) band satellite signals compared to Hyderabad station satellite signals. Over Indian region, it shows latitude-dependent scintillations.

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基于导航信号的电离层闪烁测量分析

电离层闪烁是电磁信号在电离层环境中振幅和相位的快速变化。振幅闪烁由S4指数表示，相位闪烁由。低纬度地区容易发生电离层闪烁。由于印度是一个低纬度地区，电离层闪烁必须进行分析。印度海军或IRNSS由印度空间研究组织(ISRO)规划和实施。本文研究了NavIC L5 (1.17645 GHz)和S1 (2.492028 GHz)信号(1B、1C、1D、1E、1F、1G)的S4指数。本文以Guntur站(经度:16.44N，经度:80.62E)和Hyderabad站(经度:17°24′28.10″N，经度:78°31′4.22″E)的IGS接收机数据为分析依据。利用IRNSS L5和S波段信号的载波噪声比计算S4指数。结果表明，由于电离层闪烁与频率有关，L5波段信号的S4指数高于S波段信号。与海得拉巴站卫星信号相比，Guntur站S4的所有波段(L5和S)卫星信号平均值较低。在印度地区，它显示了纬度相关的闪烁。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Engineering and Advanced Technology

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