41 citations as recorded by crossref.

1. Longitudinal Asymmetry of the Occurrence of the Plasma Irregularities over African Low-Latitude Region O. Abe et al.
2. Statistics of GNSS amplitude scintillation occurrences over Dakar, Senegal, at varying elevation angles during the maximum phase of solar cycle 24 A. Akala et al.
3. Quiet Time Ionopheric Irregularities Over the African Equatorial Ionization Anomaly Region P. Amaechi et al.
4. Feasibility of precise navigation in high and low latitude regions under scintillation conditions J. Juan et al.
5. Analysis of scintillation recorded during the PRIS measurement campaign Y. Béniguel et al.
6. Ionospheric Scintillation Observation Using Space‐Borne Synthetic Aperture Radar Data S. Mohanty et al.
7. Morphology of equatorial F-region irregularities over the Indian longitude sector using GPS-derived ROTI observations S. Rajana et al.
8. Development of a campaign to study equatorial ionospheric phenomena over Guam L. Habash Krause et al.
9. Kriging method to perform scintillation maps based on measurement and GISM model P. Hamel et al.
10. Transformation of the Spatial Spectrum of Scattered Radio Waves in the Conductive Equatorial Ionosphere G. Jandieri & N. Tugushi
11. Doppler characteristics of HF spread Doppler clutter recorded at Alice Springs, Australia A. Unewisse
12. The Ionospheric Effects of the 2022 Hunga Tonga Volcano Eruption and the Associated Impacts on GPS Precise Point Positioning Across the Australian Region B. Carter et al.
13. Can Numerical Simulations of Equatorial Plasma Bubble Plume Structures be Simplified for Operational and Practical Usage? R. Pradipta et al.
14. Temporal and spatial variations of GPS TEC and phase during auroral substorms and breakups P. Prikryl et al.
15. Spatial and Temporal Distributions of Ionospheric Irregularities Derived from Regional and Global ROTI Maps C. Nguyen et al.
16. A system science perspective of the drivers of equatorial plasma bubbles J. Klenzing et al.
17. Trends of ionospheric irregularities over African low latitude region during quiet geomagnetic conditions P. Mungufeni et al.
18. Ionospheric Scintillation Data Inversion to Characterize the Structures Associated With a Series of Polar Cap Patches J. Conroy et al.
19. Diurnal and seasonal variations of the occurrence of ionospheric irregularities over Nigeria from GNSS data O. Ikani et al.
20. A study of intense ionospheric scintillation observed during a quiet day in the East African low‐latitude region C. Ngwira et al.
21. Latitudinal and Local Time Variation of Ionospheric Turbulence Parameters during the Conjugate Point Equatorial Experiment in Brazil C. Carrano et al.
22. Comparison of the effect of high‐latitude and equatorial ionospheric scintillation on GPS signals during the maximum of solar cycle 24 Y. Jiao & Y. Morton
23. Morphological Features of Ionospheric Scintillations During High Solar Activity Using GPS Observations Over the South American Sector R. de Jesus et al.
24. Plasma density gradients at the edge of polar ionospheric holes: the absence of phase scintillation L. Jenner et al.
25. Ionospheric bubbles detection algorithms: Analysis in low latitudes S. Magdaleno et al.
26. Statistical Analysis of Refractive and Diffractive Scintillation at High Latitudes J. Conroy et al.
27. A combined iCEEMDAN and VMD method for mitigating the impact of ionospheric scintillation on GNSS signals A. Dey et al.
28. Climatology of ionospheric scintillation over the Vietnam low-latitude region for the period 2006–2014 T. Tran et al.
29. Characterization of African Equatorial Ionization Anomaly During the Maximum Phase of Solar Cycle 24 O. Oyedokun et al.
30. A method for scintillation characterization using geodetic receivers operating at 1 Hz J. Juan et al.
31. Correlation analysis of normalized ROTI and S4 as observed during different geomagnetic conditions of the 2013 September equinox over the stations within EIA African sector O. Abe et al.
32. Automatic ionospheric scintillation detector for global navigation satellite system receivers D. Ratnam et al.
33. Improved characterization and modeling of equatorial plasma depletions E. Blanch et al.
34. Solar Cycle Variations of GPS Amplitude Scintillation for the Polar Region K. Meziane et al.
35. Climatology characterization of equatorial plasma bubbles using GPS data S. Magdaleno et al.
36. Ionospheric scintillation effects on single frequency GPS R. Steenburgh et al.
37. Simultaneous observations of ionospheric irregularities in the African low-latitude region C. Ngwira et al.
38. Characteristics of ionospheric scintillation climatology over Indian low-latitude region during the 24th solar maximum period K. Sahithi et al.
39. Analysis on the ionospheric scintillation monitoring performance of ROTI extracted from GNSS observations in high-latitude regions D. Zhao et al.
40. Characterization of high‐latitude ionospheric scintillation of GPS signals Y. Jiao et al.
41. Modelling the probability of ionospheric irregularity occurrence over African low latitude region P. Mungufeni et al.