Modeling and mitigation of the effect of scintillations on GPS

Ionospheric scintillations can not only reduce the accuracy of GPS/SB AS receiver pseudorange and carrier phase measurements but also result in a complete loss of lock on a satellite. Thus it is important to be able to investigate, model and mitigate scintillation effects. Thus, a transionospheric p...

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Bibliographic Details
Main Authors: Strangeways, H.J., Gherm, V.E., Zernov, N.N.
Format: Conference Proceeding
Language:English
Subjects:
Delay
Fading
Frequency
Geomagnetism
Geometry
Global Positioning System
GPS
Ionosphere
Phase measurement
Satellite broadcasting
Satellite navigation systems
Scintillation
Transionospheric
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Summary:Ionospheric scintillations can not only reduce the accuracy of GPS/SB AS receiver pseudorange and carrier phase measurements but also result in a complete loss of lock on a satellite. Thus it is important to be able to investigate, model and mitigate scintillation effects. Thus, a transionospheric propagation model has been developed which can calculate frequency spectra (power spectra) of the phase and level (log-amplitude) fluctuations in a transionospheric channel of propagation containing time-varying electron density irregularities (which produce the scintillations) and which is valid even for strong scintillation conditions. The strongest amplitude scintillation occurs due to bubbles in the low latitude ionosphere. These have also been modelled and their effect on transionospheric GPS paths determined. Calculated power spectra of these processes can be used to produce random time sequences of the log-amplitude and phase of the field. Examples of simulations and their use are presented for high and low latitudes and scintillation mitigation for GPS receivers is discussed.
ISSN:1334-2630
DOI:10.1109/ELMAR.2007.4418802