Accession Number:

ADA361355

Title:

Validation of the Gallagher Protonospheric Model.

Descriptive Note:

Master's thesis,

Corporate Author:

AIR FORCE INST OF TECH WRIGHT-PATTERSONAFB OH SCHOOL OF ENGINEERING

Personal Author(s):

Report Date:

1999-03-01

Pagination or Media Count:

123.0

Abstract:

Ionospheric models are used in many systems throughout the Department of Defense for example, they are useful in correcting range errors in radio signals. However, correction models dont incorporate the protonosphere, the torus-shaped plasma volume above the ionosphere. The Gallagher Protonospheric Model, recently incorporated into the Parameterized Ionospheric Model 1.7 PIM 1.7, was validated against protonospheric total electron content PTEC measurements made by the GPS system. Gallagher model calculations of slant PTEC for Pittsburgh ground station looking south with a raypath at an elevation of 26 degrees were compared against GPS PTEC measurements for the same configuration derived from the Dual Station Technique DST. In the DST, 11 days of GPS TEC measurements were obtained from Charleston and Pittsburgh, taking advantage of the latitudinal asymmetry of the protonosphere to obtain PTEC. The Gallagher model results were in general agreement with measured PTEC, indicating a slight diurnal change in PTEC 2 PTEC. Groundtmth PTEC accuracy was estimated at 2-3.5 PTEC, masking any trend measurement, yet good enough to validate the potential of Self Calibration Of Pseudo-range Errors SCORE and DST to measure PTEC using GPS. PIM 1.7 users should be aware of Gallaghers limits empirical, limited to 00-10 Magnetic Local Time, and 1-40 degrees geomagnetic latitude.

Subject Categories:

  • Atmospheric Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE