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Simulated high frequency ray paths considering traveling ionospheric disturbances
- 1.0523022 - ÚFA 2021 RIV DE eng J - Journal Article
Fagre, M. - Zossi, B.S. - Chum, Jaroslav - Elias, A. G.
Simulated high frequency ray paths considering traveling ionospheric disturbances.
SN Applied Sciences. Roč. 2, č. 4 (2020), č. článku 615. ISSN 2523-3963. E-ISSN 2523-3971
R&D Projects: GA ČR(CZ) GA18-01969S
Institutional support: RVO:68378289
Keywords : Radio wave propagation * Traveling ionospheric disturbances * Ray tracing
OECD category: Fluids and plasma physics (including surface physics)
Method of publishing: Open access
https://link.springer.com/content/pdf/10.1007/s42452-020-2438-4.pdf
This study presents a modified version of a classical 3-D numerical ray tracing code [originally by Jones and Stephenson (A versatile three-dimensional ray tracing computer program for radio waves in the ionosphere. Office of Telecommunications Report 75–76, US Government Printing Office, Washington, DC, 1975)], now linked to ionosphere, neutral atmosphere, Earth’s magnetic field, and traveling ionospheric disturbances (TIDs) models. This method is applied to study the effect of TIDs on radio waves by simulating the waves’ propagation in a disturbed ionosphere. A 3-D cubic interpolation method is implemented in the ray tracing code to solve discontinuities and guarantee the ray tracing validity and accuracy under all conditions. Changes of the ground range distance (R) and the bearing angle (σ) are assessed for various simulated ray paths. A Pedersen ray case is also shown, for which small changes of signal frequency lead to enhanced variations. The study of HF ray path variations in terms of various TIDs characteristics and under different background ionospheric conditions and transmitter locations and radiation pattern can contribute to the mitigation of TIDs effects, either helping to improve existing methods or to develop new ones. The 3-D ray tracing code described and implemented in this work may well work for this purpose.
Permanent Link: http://hdl.handle.net/11104/0307435
File Download Size Commentary Version Access 0523022_SN Applied Sci_2020_Chum.pdf 0 1.5 MB Publisher’s postprint open-access
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