Title :
Path length of curved RF trajectories through vertically stratified and isotropic ionospheres
Author :
Jeffery, Christopher A. ; Roussel-Dupre, Robert ; Colestock, Patrick
Author_Institution :
Space & Remote Sensing (ISR-2), Los Alamos Nat. Lab., Los Alamos, NM, USA
Abstract :
Global navigation satellite systems (GNSS) require the removal of ionospheric-induced range errors for high geolocation accuracy. At the GHz frequencies used by GNSS, ionospheric correction is calculated by perturbative expansion in plasma frequency assuming a vertically stratified or isotropic ionosphere. Currently, these techniques are limited by formal analytic difficulties in calculating ionospheric dispersion along a curved ray path. Building on the earlier work of Roussel-Dupre et al., we have developed a new perturbation scheme that overcomes the current difficulties associated with refractive ray bending. In this short paper, we present exact perturbative expressions for excess path length in vertically stratified and isotropic ionospheres, accurate to 6th order in the ratio of plasma frequency to wave frequency.
Keywords :
geophysical signal processing; ionospheric techniques; satellite navigation; GNSS; curved RF trajectories; geolocation accuracy; global navigation satellite systems; ionospheric correction; ionospheric induced range errors; isotropic ionospheres; path length; perturbative expansion; plasma frequency; refractive ray bending; vertically stratified ionospheres; wave frequency; Dispersion; Global Positioning System; Ionosphere; Laboratories; Plasma sources; Plasma waves; Radio frequency; Remote sensing; Satellite navigation systems; Sensor phenomena and characterization;
Conference_Titel :
Electromagnetics in Advanced Applications, 2009. ICEAA '09. International Conference on
Conference_Location :
Torino
Print_ISBN :
978-1-4244-3385-8
Electronic_ISBN :
978-1-4244-3386-5
DOI :
10.1109/ICEAA.2009.5297421
