Ionospheric irregularity reconstruction using multisource data fusion via deep learning

Tian, Penghao; Yu, Bingkun; Ye, Hailun; Xue, Xianghui; Wu, Jianfei; Chen, Tingdi

doi:10.5194/acp-23-13413-2023

Cited by 3 publications

(1 citation statement)

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“…Although extensive research employing satellite data and global models have been conducted on the middle/upper atmosphere and ionosphere in recent years (Froidevaux, et al, 2006;Gettelman et al, 2019;Yu et al, 2019;Cai et al, 2020;Cai et al, 2021;Wu et al, 2021;Yu et al, 2021;Cai et al, 2022;Emmons et al, 2022;Yu et al, 2022), it is still a challenge to forecast changes in ionospheric irregularities and dynamic processes in the Earth's upper atmosphere (Tian et al, 2022;Tian et al, 2023). The objectives of 10.3389/fspas.2023.1361434 significantly impact the measurement accuracy of global navigation satellite systems.…”

Section: Introductionmentioning

confidence: 99%

Editorial: Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere

Yu,

Cai,

Emmons

et al. 2024

Front. Astron. Space Sci.

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on the Research Topic Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere s this Research Topic are the new results of "Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere" that can advance our knowledge of atmospheric dynamics, chemistry as well as vertical coupling of atmospheric layers. It comprises five research articles contributed by 39 authors with more than 7,500 views to date. The research objects of the papers involve ionospheric irregularities, mesospheric metal layers, atmospheric winds, and polar mesospheric clouds.Equatorial plasma bubbles (EPBs) are large-scale ionospheric plasma depletions at the magnetic equator. EPBs can cause the degradation of radio signal, and thusFrontiers in Astronomy and Space Sciences 01 frontiersin.org

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Section: Introductionmentioning

confidence: 99%

Editorial: Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere

Yu,

Cai,

Emmons

et al. 2024

Front. Astron. Space Sci.

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The Characteristics and Simulation of Sporadic E Layers in Ascending and Descending Phases of the Solar Cycle at Mid‐Latitude Stations

Zhang,

Peng,

Jin

et al. 2024

JGR Space Physics

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Most of the attention was paid to the correlation between Sporadic E (Es) layers and solar activity, and conflicting conclusions were obtained in previous research. For the first time, we analyze the influence of solar activity on the number of Es layer traces (Es layers with a certain duration and intensity), the lifetime and descent velocity of the descending Es layer traces, and the results have been explained using simulation based on windshear theory and Lomb‐Scargle (LS) spectral analysis. A statistical analysis of Es layers observed in ascending (2010–2012) and descending (2016–2018) phases of the solar cycle is presented at three different mid‐latitude stations of Kuming (25.5°N, 103.8°E), Lanzhou (36.1°N, 103.9°E) and Urumqi (43.8°N, 87.6°E) in China region. The observation results indicate that the occurrence rate, height distribution and the number of the Es layer traces are all influenced by solar activity, indicating that they are negatively correlated with solar activity. The simulation, spectral analysis, and observations reveal that the lifetime and descent velocity of the descending Es layer traces are mainly modulated by semidiurnal and diurnal tides, but are less affected by solar activity. The predominant oscillations of the Es layer are identified using LS spectral analysis. The spectral analysis reveals that the modulation of diurnal tide waves on Es layers dominates at lower mid‐latitudes, and that of semidiurnal tide waves dominates at higher latitudes. The results also confirm the modulation of planetary waves on Es layers at different mid‐latitudes.

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Mechanisms Underlying the Changes in Sporadic E Layers During Sudden Stratospheric Warming

Zheng,

Fang,

Xiao

et al. 2024

Atmosphere

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During sudden stratospheric warming (SSW) events, significant modifications occur, not only in the neutral atmosphere, but also in the ionosphere. Specifically, sporadic E layers in the mesosphere and lower thermosphere regions significantly disrupt satellite communication. Although research has frequently focused on ionospheric alterations during SSW events, detailed studies on sporadic E layers remain limited. Examining these variations during SSW events could enhance our understanding of the interaction mechanisms between the ionosphere and the neutral atmosphere, and provide insights into the patterns of sporadic E layer alterations. This study analyzed the behavior of sporadic E layers during the 2008/2009 winter SSW period using data from three Japanese stations and satellite observations. The principal findings included the following: (1) The enhancement in the critical frequency of the sporadic E layers was most notable following the transition from easterly to westerly winds at 60° N at a 10 hPa altitude, accompanied by quasi 6-day and quasi 16-day oscillations in frequency. (2) The daily average zonal and meridional wind speeds in the MLT region also exhibited quasi 6-day and quasi 16-day oscillations, aligning with the observed periodicities in the critical frequency of the sporadic E layers. (3) Planetary waves were shown to modulate the amplitude of diurnal and semidiurnal tides, influencing the sporadic E layers. Furthermore, a wavelet analysis of foEs data with a time resolution of 0.25 h demonstrated that planetary waves also modulate the frequency of diurnal tides, thereby affecting the sporadic E layers. This research contributes to a deeper understanding of the formation mechanisms and prediction of sporadic E layer behavior.

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Ionospheric irregularity reconstruction using multisource data fusion via deep learning

Cited by 3 publications

References 96 publications

Editorial: Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere

Editorial: Observations and simulations of layering phenomena in the middle/upper atmosphere and ionosphere

The Characteristics and Simulation of Sporadic E Layers in Ascending and Descending Phases of the Solar Cycle at Mid‐Latitude Stations

Mechanisms Underlying the Changes in Sporadic E Layers During Sudden Stratospheric Warming

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