Add to ORKGMilitary operations depend on high frequency (HF) radio communication. During a solar x-ray flare, the D-region of the ionosphere absorbs the HF radio wave energy, attenuating the signal, causing critical communication lines to fail. This research evaluates the performance of two empirical models that measure solar flare-induced HF absorption: The D-region Absorption Prediction (DRAP) model provided by the Space Weather Prediction Center and the Empirical HIDIVE Absorption (EHA) model developed by Air Force Institute of Technology’s Evelyn Schumer in her 2010 dissertation. The DRAP model scales frequency as f -1.5 while normalizing the data by a cos0.75(χ) dependence. The EHA model is scaled as f -1.24 and normalizes by a cos0.9(χ) dependen...
Aircraft operating on trans-polar routes require reliable HF (3-30 MHz) radio communications links t...
This research takes an existing ionospheric model and modifies it to include the effects of solar fl...
International audienceAn analysis of noise attenuation during 80 solar flares between 2013 and 2017 ...
High frequency (HF; 3–30 MHz) radio wave propagation can be impacted by absorption that results from...
The Optimised D-Region Absorption Model (ODRAM) provides global nowcasts and forecasts of ionospheri...
We have previously reported on a significant new multi-national project to provide improved predicti...
Absorption of HF (3-30 MHz) radio waves is largely determined by the electron density in the ionosph...
High frequency (HF) radio wave propagation is sensitive to space weather-induced ionospheric disturb...
Improved real-time HF communications frequency management is required for aircraft on trans-polar ro...
An analysis of noise attenuation during 80 solar flares between 2013 and 2017 was carried out at fre...
A two-pronged study is under way to improve understanding of the D region response to space weather ...
A real-time model of HF radio propagation conditions is being developed as a service for aircraft co...
Improved real-time HF communications frequency management is required for aircraft on trans-polar ro...
Increased solar radiation during solar flare events can cause additional ionization and enhanced abs...
Researchers at the University of Leicester, Lancaster University and St Petersburg State University ...
Aircraft operating on trans-polar routes require reliable HF (3-30 MHz) radio communications links t...
This research takes an existing ionospheric model and modifies it to include the effects of solar fl...
International audienceAn analysis of noise attenuation during 80 solar flares between 2013 and 2017 ...
High frequency (HF; 3–30 MHz) radio wave propagation can be impacted by absorption that results from...
The Optimised D-Region Absorption Model (ODRAM) provides global nowcasts and forecasts of ionospheri...
We have previously reported on a significant new multi-national project to provide improved predicti...
Absorption of HF (3-30 MHz) radio waves is largely determined by the electron density in the ionosph...
High frequency (HF) radio wave propagation is sensitive to space weather-induced ionospheric disturb...
Improved real-time HF communications frequency management is required for aircraft on trans-polar ro...
An analysis of noise attenuation during 80 solar flares between 2013 and 2017 was carried out at fre...
A two-pronged study is under way to improve understanding of the D region response to space weather ...
A real-time model of HF radio propagation conditions is being developed as a service for aircraft co...
Improved real-time HF communications frequency management is required for aircraft on trans-polar ro...
Increased solar radiation during solar flare events can cause additional ionization and enhanced abs...
Researchers at the University of Leicester, Lancaster University and St Petersburg State University ...
Aircraft operating on trans-polar routes require reliable HF (3-30 MHz) radio communications links t...
This research takes an existing ionospheric model and modifies it to include the effects of solar fl...
International audienceAn analysis of noise attenuation during 80 solar flares between 2013 and 2017 ...