An investigation of methods for updating ionospheric scintillation models using topside in-situ plasma density measurements
Abstract
Modern military communication, navigation, and surveillance systems depend on reliable, noise-free transionospheric radio-frequency channels. They can be severely impacted by small-scale electron-density irregularities in the ionosphere, which cause both phase and amplitude scintillation. Basic tools used in planning and mitigation schemes are climatological in nature and thus may greatly over- and under-estimate the effects of scintillation in a given scenario. This report summarizes the results of the first year of a three-year investigation into the methods for updating ionospheric scintillation models using observations of ionospheric plasma-density irregularities measured by DMSP Scintillation Meter (SM) sensor. Results are reported from the analysis of data from a campaign conducted in January 1990 near Tromso, Norway, in which near coincident in-situ plasma-density and transionospheric scintillation measurements were made. Estimates for the level of intensity and phase scintillation on a transionospheric UHF radio link in the early-evening auroral zone were calculated from DMSP SM data and compared to the levels actually observed.
- Publication:
-
Report
- Pub Date:
- May 1991
- Bibcode:
- 1991nrai.rept.....S
- Keywords:
-
- Atmospheric Models;
- Density Measurement;
- Earth Ionosphere;
- Navigation;
- Plasma Density;
- Radio Waves;
- Scintillation;
- Ultrahigh Frequencies;
- Amplitudes;
- Command And Control;
- Electron Density (Concentration);
- Surveillance;
- Geophysics