Title :
Using GPS to calibrate Loran-C
Author :
Pisano, Joseph J. ; Enge, Per K. ; Levin, Peter L.
Author_Institution :
TASC, Reading, MA, USA
fDate :
7/1/1991 12:00:00 AM
Abstract :
Various techniques for using simultaneous Global Positioning System (GPS)/Loran data to estimate the propagation uncertainties that limit the absolute accuracy of Loran-C are discussed. Significant improvements in the absolute accuracy of Loran can be achieved with very simple calibrations. The absolute accuracy of Loran in the Gulf of Maine without calibration is presented. The maximum and RMS absolute errors are between 700 and 500 m, depending on the choice of land model. Simple calibrations greatly improve the absolute accuracy of Loran. As shown, if the land conductivities are fixed a priori and a single parameter is optimized, the maximum and RMS absolute errors fall to around 250 and 60 m, respectively. Alternatively, land can be treated as a single conductivity which can be adjusted to reduce offshore additional secondary phase factor errors. The performance of this practice is summarized in tables which show maximum and RMS errors of around 300 to 100 m, respectively
Keywords :
calibration; radionavigation; satellite relay systems; Global Positioning System; Gulf of Maine; Loran-C; absolute accuracy; absolute errors; calibration; conductivity; land model; propagation uncertainties; radionavigation; secondary phase factor errors; Current measurement; Frequency synchronization; Global Positioning System; Ionosphere; Optical wavelength conversion; Pulse measurements; Radio navigation; Radio transmitters; Sea measurements; Velocity measurement;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
