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Comparison of NAVSTAR satelliteLband ionospheric calibrations with Faraday rotation measurements (1984)

Royden, H. N. ; Miller, R. B. ; Buennagel, L. A.

American Geophysical Union

In: Radio Science. 1984; 19(3): 798-804. Published 1984 May 01. doi: 10.1029/rs019i003p00798.

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Publication Date: 1984-05-01

Print ISSN: 0048-6604

Electronic ISSN: 1944-799X

Topics: Geosciences , Physics

Published by American Geophysical Union

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SERIES - Satellite Emission Range Inferred Earth Surveying (1983)

Buennagel, L. A. ; Spitzmesser, D. J. ; Macdoran, P. F.

In: Other Sources

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Publication Date: 2011-08-18

Description: The Satellite Emission Range Inferred Earth Surveying (SERIES) concept is based on the utilization of NAVSTAR Global Positioning System (GPS) radio transmissions without any satellite modifications and in a totally passive mode. The SERIES stations are equipped with lightweight 1.5 m diameter dish antennas mounted on trailers. A series baseline measurement accuracy demonstration is considered, taking into account a 100 meter baseline estimation from approximately one hour of differential Doppler data. It is planned to conduct the next phase of experiments on a 150 m baseline. Attention is given to details regarding future baseline measurement accuracy demonstrations, aspects of ionospheric calibration in connection with subdecimeter baseline accuracy requirements of geodesy, and advantages related to the use of the differential Doppler or pseudoranging mode.

Keywords: GEOPHYSICS

Format: text

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Comparison of NAVSTAR satellite L band ionospheric calibrations with Faraday rotation measurements (1984)

Royden, H. N. ; Buennagel, L. A. ; Miller, R. B.

In: Other Sources

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Publication Date: 2011-08-18

Description: It is pointed out that interplanetary navigation at the Jet Propulsion Laboratory (JPL) is performed by analyzing measurements derived from the radio link between spacecraft and earth and, near the target, onboard optical measurements. For precise navigation, corrections for ionospheric effects must be applied, because the earth's ionosphere degrades the accuracy of the radiometric data. These corrections are based on ionospheric total electron content (TEC) determinations. The determinations are based on the measurement of the Faraday rotation of linearly polarized VHF signals from geostationary satellites. Problems arise in connection with the steadily declining number of satellites which are suitable for Faraday rotation measurements. For this reason, alternate methods of determining ionospheric electron content are being explored. One promising method involves the use of satellites of the NAVSTAR Global Positioning System (GPS). The results of a comparative study regarding this method are encouraging.

Keywords: SPACE COMMUNICATIONS, SPACECRAFT COMMUNICATIONS, COMMAND AND TRACKING

Type: Radio Science (ISSN 0048-6604); 19; 798-804

Format: text

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Satellite Emission Range Inferred Earth Survey (SERIES) project (1984)

Young, L. E. ; Buennagel, L. A. ; Neilan, R. E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Global Positioning System (GPS) was developed by the Department of Defense primarily for navigation use by the United States Armed Forces. The system will consist of a constellation of 18 operational Navigation Satellite Timing and Ranging (NAVSTAR) satellites by the late 1980's. During the last four years, the Satellite Emission Range Inferred Earth Surveying (SERIES) team at the Jet Propulsion Laboratory (JPL) has developed a novel receiver which is the heart of the SERIES geodetic system designed to use signals broadcast from the GPS. This receiver does not require knowledge of the exact code sequence being transmitted. In addition, when two SERIES receivers are used differentially to determine a baseline, few cm accuracies can be obtained. The initial engineering test phase has been completed for the SERIES Project. Baseline lengths, ranging from 150 meters to 171 kilometers, have been measured with 0.3 cm to 7 cm accuracies. This technology, which is sponsored by the NASA Geodynamics Program, has been developed at JPL to meet the challenge for high precision, cost-effective geodesy, and to complement the mobile Very Long Baseline Interferometry (VLBI) system for Earth surveying.

Keywords: AIRCRAFT COMMUNICATIONS AND NAVIGATION

Type: NASA-CR-173728 , JPL-PUB-84-16 , NAS 1.26:173728

Format: application/pdf

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