Title :
Improved ionospheric error correction for differential GPS
Author :
Abdullah, Mardina ; Strangeways, Hal J. ; Walsh, David M A
Author_Institution :
Sch. of Electron. & Electr. Eng., The Univ. of Leeds, UK
Abstract :
Using differential GPS carrier phase techniques over a short baseline, the effect of the ionosphere can be determined at the reference station and used to correct the range measurement at the second/mobile station. In this paper, we present modelling calculations to determine differences in ionosphere-induced delay between nearby reference stations to an accuracy of a millimetre. This is so that empirical formulae can be formulated to accurately determine the difference in ionospheric delay expected over a short baseline so that a more accurate differential GPS correction can be made.
Keywords :
Global Positioning System; error correction; ionospheric electromagnetic wave propagation; ray tracing; GPS ionospheric error correction; Global Positioning System; differential GPS carrier phase techniques; ionosphere-induced delay differences; mobile station range measurement accuracy; ray-tracing; reference station; short baseline; Computer networks; Delay; Error correction; Frequency; Global Positioning System; Ionosphere; Magnetic fields; Phase measurement; Position measurement; Real time systems;
Conference_Titel :
Applied Electromagnetics, 2003. APACE 2003. Asia-Pacific Conference on
Print_ISBN :
0-7803-8129-7
DOI :
10.1109/APACE.2003.1234474
