Arslan Ahmed scite author profile

The Global Positioning System (GPS) performance at high latitudes can be severely affected by the ionospheric scintillation due to the presence of small-scale time-varying electron density irregularities. In this paper, an improved analogous phase scintillation index derived using the wavelet-transform-based filtering technique is presented to represent the effects of scintillation regionally at European high latitudes. The improved analogous phase index is then compared with the original analogous phase index and the phase scintillation index for performance comparison using 1 year of data from Trondheim, Norway (63.41 ∘ N, 10.4 ∘ E). This index provides samples at a 1 min rate using raw total electron content (TEC) data at 1 Hz for the prediction of phase scintillation compared to the scintillation monitoring receivers (such as NovAtel Global Navigation Satellite Systems Ionospheric Scintillation and TEC Monitor receivers) which operate at 50 Hz rate and are thus rather computationally intensive. The estimation of phase scintillation effects using high sample rate data makes the improved analogous phase index a suitable candidate which can be used in regional geodetic dual-frequency-based GPS receivers to efficiently update the tracking loop parameters based on tracking jitter variance.

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Seismo ionospheric anomalies in Turkey associated with M ≥ 6.0 earthquakes detected by GPS stations and GIM TEC

Shah

İnyurt

Ehsan

et al. 2020

Advances in Space Research

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Arslan Ahmed

Investigation of ionospheric irregularities and scintillation using TEC at high latitude

Possible ionosphere and atmosphere precursory analysis related to Mw > 6.0 earthquakes in Japan

Total electron content anomalies associated with earthquakes occurred during 1998–2019

Wavelet‐based analogous phase scintillation index for high latitudes

Seismo ionospheric anomalies in Turkey associated with M ≥ 6.0 earthquakes detected by GPS stations and GIM TEC

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