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Robust estimation of systematic errors of satellite laser range (1999)

Yang, Y. ; Cheng, M. K. ; Shum, C. K. ; [et al.]

Springer

Journal of geodesy 73 (1999), S. 345-349

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ISSN: 1432-1394

Keywords: Key words. Robust fitting ; Systematic errors ; SLR

Source: Springer Online Journal Archives 1860-2000

Topics: Architecture, Civil Engineering, Surveying

Notes: Abstract. Methods for analyzing laser-ranging residuals to estimate station-dependent systematic errors and to eliminate outliers in satellite laser ranges are discussed. A robust estimator based on an M-estimation principle is introduced. A practical calculation procedure which provides a robust criterion with high breakdown point and produces robust initial residuals for following iterative robust estimation is presented. Comparison of the results from the least-squares method with those of the robust method shows that the results of the station systematic errors from the robust estimator are more reliable.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001900050252

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Paper (German National Licenses)

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Precision orbit determination for TOPEX/POSEIDON (1994)

Schultz, B. E. ; Eanes, R. J. ; Putney, B. H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The TOPEX/POSEIDON mission objective requires that the radial position of the spacecraft be determined with an accuracy better than 13 cm RMS (root mean square). This stringent requirement is an order of magnitude below the accuracy achieved for any altimeter mission prior to the definition of the TOPEX/POSEIDON mission. To satislfy this objective, the TOPEX Precision Orbit determination (POD) Team was established as a joint effort between the NASA Goddard Space Flight Center and the University of Texas at Austin, with collaboration from the University of Colorado and the Jet Propulsion Laboratory. During the prelaunch development and the post launch verification phases, the POD team improved, calibrated, and validated the precision orbit determination computer software systems. The accomplishments include (1) increased accuracy of the gravity and surface force models and (2) improved peformance of both laser ranging and Doppler tracking systems. The result of these efforts led to orbit accuracies for TOPEX/POSEIDON which are significantly better than the original mission requirement. Tests based on data fits, covariance analysis, and orbit comparisons indicate that the radial component of the TOPEX/POSEIDON spacecraft is determined, relative to the Earth's mass center, with an root mean square (RMS) error in the range of 3 to 4 cm RMS. This orbit accuracy, together with the near continuous dual-frequency altimetry from this mission, provides the means to determine the ocean's dynamic topography with an unprecedented accuracy.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Journal of Geophysical Research (ISSN 0148-0227); 99; C12; p. 24,383-24,404

Format: text

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Dynamic orbit determination using GPS measurements from TOPEX/POSEIDON (1994)

Tapley, B. D. ; Abusali, P. A. M. ; Schultz, B. E. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The GPAS data acquired by the TOPEX/POSEIDON (T/P) Demonstration Receiver (DR) have been used in a dynamic orbit determination, which was based on the description of the gravitational and nongravitational forces in the equations of motion. The GPS carrier phase data were processed in a double difference mode to remove clock errors, including the effects of Selective Availability. Simultaneous estimation of the T/P orbit and GPS orbits was performed using five 10-day cycles in the interval between December (1992) and April (1993). The resulting T/P orbits have been compared with the orbits determined from Satellite Laser Ranging, the French one-way Doppler tracking system, DORIS, and with the JPL reduced dynamic orbit determination strategies and force models with the GPS/DR to those used with SLR/DORIS, the radial component of the T/P orbit (based on JGM-2) was found to agree better than 30 mm (rms) and 35 mm with the JPL reduced dynamic orbit. An experiment gravity tuning was accomplished using four cycles of GPS/DR data. The resulting GPS./DR-orbits, determined by the dynamic technique with the experimental gravity field, are in better agreement with the JPL reduced dynamic orbits in both the radial component (21-25 mm) and altimeter crossover residuals than the JGM-2 orbits. (21-25 mm) and altimeter crossover residuals than the JGM-2 orbits.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 19; p. 2179-2182

Format: text

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4

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The Seasat altimeter data and its accuracy assessment (1982)

Tapley, B. D. ; Parke, M. E. ; Born, G. H.

In: Other Sources

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Publication Date: 2011-08-18

Description: A description is given of the Seasat satellite radar altimeter, which was designed to measure (1) the altitude of the satellite above the ocean surface, (2) surface wave height, and (3) the ocean-surface backscatter coefficient from which wind speed may be inferred. The atmospheric and geophysical effects influencing radar altimeter measurement accuracies and the attendant correction models adopted for the altimeter geophysical data record are summarized, along with Seasat Altimeter/Precision Orbit Determination Experiment Team activities directed towards the validation and improvement of these models and investigations assessing the accuracy of both the altimeter measurements and the computed satellite altitude ephemeris.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Journal of Geophysical Research; 87; Apr. 30

Format: text

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Seasat altimeter calibration - Initial results (1979)

Lorell, J. ; Townsend, W. F. ; Kolenkiewicz, R. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Preliminary analysis of radar altimeter data indicates that the instrument has met its specifications for measuring spacecraft height above the ocean surface (plus or minus 10 centimeters) and significant wave height (plus or minus 0.5 meter). There is ample evidence that the radar altimeter, having undergone development through three earth orbit missions (Skylab, Geodynamics Experimental Ocean Satellite 3 and Seasat), has reached a level of precision that now makes possible its use for important quantitative oceanographic investigations and practical applications.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Science; 204; June 29

Format: text

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