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1

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On the geographical correlation of orbit error (1985)

Rosborough, G. W. ; Tapley, B. D.

In: CASI

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Publication Date: 2016-06-07

Description: The orbit accuracies needed to support the global crustal dynamics project and recent satellite altimeter missions have placed unique demands on the data analysis and orbit analysis systems. These demands include accurate and well distributed observations, improved computational techniques and substantial enhancements in the force models which represent the satellite's motion. For example, the satellite altimeter mission (TOPEX), whose objectives will be: (1) to measure the time variable ocean surface topography, and (2) to demonstrate the ability to map the general ocean circulation, requires that the radial component of the satellite's orbit be known with an rms accuracy of 13 cm for the three year mission lifetime. The primary force model uncertainty which limits the contemporary orbit computation accuracy is the inaccuracy in the values assigned to the spherical harmonic coefficients used to model the Earth's gravity field.

Keywords: ASTRODYNAMICS

Type: NASA, Washington Geopotential Res. Mission (GRM); p 76

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2

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Tracking system options for future altimeter satellite missions (1994)

Rim, H. J. ; Davis, G. W. ; Ries, J. C. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Follow-on missions to provide continuity in the observation of the sea surface topography once the successful TOPEX/POSEIDON (T/P) oceanographic satellite mission has ended are discussed. Candidates include orbits which follow the ground tracks of T/P GEOSAT or ERS-1. The T/P precision ephemerides, estimated to be near 3 cm root-mean-square, demonstrate the radial orbit accuracy that can be achieved at 1300 km altitude. However, the radial orbit accuracy which can be achieved for a mission at the 800 km altitudes of GEOSAT and ERS-1 has not been established, and achieving an accuracy commensurate with T/P will pose a great challenge. This investigation focuses on the radial orbit accuracy that can be achieved for a mission in the GEOSAT orbit. Emphasis is given to characterizing the effects of force model errors on the estimated radial orbit accuracy, particularly those due to gravity and drag. The importance of global, continuous tracking of the satellite for reduction in these sources of orbit error is demonstrated with simulated GPS tracking data. A gravity tuning experiment is carried out to show how the effects of gravity error may be reduced. Assuming a GPS flight receiver with a full-sky tracking capability, the simulation results indicate that a 5 cm radial orbit accuracy for an altimeter satellite in GEOSAT orbit should be achievable during low-drag atmospheric conditions and after an acceptable tuning of the gravity model.

Keywords: ASTRODYNAMICS

Type: NASA. Goddard Space Flight Center, Flight Mechanics(Estimation Theory Symposium, 1994; p 211-223

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3

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Precise orbit analysis and global verification results from ERS-1 altimetry (1994)

Shum, C. K. ; Ries, J. C. ; Seago, J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A technique which employs dual satellite crossover measurements from ERS-1 and Topology Ocean Experiment (TOPEX)/Poseidon together with laser tracking data and single satellite crossover measurements for ERS-1 precision orbit determination is described. The accuracy assessment of the resulting ERS-1 orbit is provided. Results of global verification of the ERS-1 Ocean Products (OPR02) and the Interim Geophysical Data Records (IGDR) data products in terms of altimeter bias, time lag bias and sea state bias are presented.

Keywords: ASTRODYNAMICS

Type: ESA, Proceedings of 2nd ERS-1 Symposium on Space at the Service of Our Environment, Volume 2; p 747-752

Format: text

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4

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The Seasat Precision Orbit Determination Experiment (1980)

Born, G. H. ; Tapley, B. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The objectives and conclusions reached during the Seasat Precision Orbit Determination Experiment are discussed. It is noted that the activities of the experiment team included extensive software calibration and validation and an intense effort to validate and improve the dynamic models which describe the satellite's motion. Significant improvement in the gravitational model was obtained during the experiment, and it is pointed out that the current accuracy of the Seasat altitude ephemeris is 1.5 m rms. An altitude ephemeris for the Seasat spacecraft with an accuracy of 0.5 m rms is seen as possible with further improvements in the geopotential, atmospheric drag, and solar radiation pressure models. It is concluded that since altimetry missions with a 2-cm precision altimeter are contemplated, the precision orbit determination effort initiated under the Seasat Project must be continued and expanded.

Keywords: ASTRODYNAMICS

Type: Journal of the Astronautical Sciences; 28; Oct

Format: text

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5

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Precision orbit determination software validation experiment (1980)

Schutz, B. E. ; Marsh, J. G. ; Martin, T. V. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: This paper presents the results of an experiment which was designed to ascertain the level of agreement between GEODYN and UTOPIA, two completely independent computer programs used for precision orbit determination, and to identify the sources which limit the agreement. For a limited set of models and a seven-day data set arc length, the altitude components of the ephemeris obtained by the two programs agree at the sub-centimeter level throughout the arc.

Keywords: ASTRODYNAMICS

Type: Journal of the Astronautical Sciences; 28; Oct

Format: text

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6

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Multistep integration formulas for the numerical integration of the satellite problem (1981)

Lundberg, J. B. ; Tapley, B. D.

In: CASI

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Publication Date: 2019-06-28

Description: The use of two Class 2/fixed mesh/fixed order/multistep integration packages of the PECE type for the numerical integration of the second order, nonlinear, ordinary differential equation of the satellite orbit problem. These two methods are referred to as the general and the second sum formulations. The derivation of the basic equations which characterize each formulation and the role of the basic equations in the PECE algorithm are discussed. Possible starting procedures are examined which may be used to supply the initial set of values required by the fixed mesh/multistep integrators. The results of the general and second sum integrators are compared to the results of various fixed step and variable step integrators.

Keywords: ASTRODYNAMICS

Type: NASA-CR-164193 , IASOM-81-1

Format: application/pdf

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7

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Density models for the upper atmosphere (1979)

Dowd, D. L. ; Tapley, B. D.

In: Other Sources

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Publication Date: 2019-06-27

Description: Three contemporary atmospheric density models which are candidates for meeting the current orbit computation requirements are compared. The models considered are the analytic Jacchia-Roberts model, the modified Harris-Priester model, and the USSR Cosmos satellite derived density model. All of these models can be said to be quasi-dynamic representations of the atmospheric density. The time dependent variations in the model density profiles are determined by both the evaluation of explicit continuous functions of time and by the input of time varying parameters to algorithms. The computation characteristics of each of the models are compared and a modification to the modified Harris-Priester model is proposed which improves its ability to represent the diurnal variation in the atmospheric density.

Keywords: ASTRODYNAMICS

Type: Celestial Mechanics; 20; Oct. 197

Format: text

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8

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Density models for the upper atmosphere (1978)

Tapley, B. D. ; Dowd, D. L.

In: CASI

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Publication Date: 2019-06-27

Description: Consideration is given to three contemporary atmospheric density models which have been selected as the best candidates to meet the requirements of satellite missions. The models considered are the Analytic Jacchia-Roberts Model, the Modified Harris-Priester Model, and the U.S.S.R. Cosmos Satellite Derived Density Model. Each of the models and their respective variations is discussed separately, and a comparison of the computational characteristics of the models is presented. Finally, recommended modifications for improving both the computation speed and accuracy are presented.

Keywords: ASTRODYNAMICS

Type: NASA. Goddard Space Flight Center Flight Mechanics(Estimation Theory Symp.; p 38-78

Format: text

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9

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Orbit accuracy assessment for Seasat (1980)

Tapley, B. D. ; Schutz, B. E.

In: Other Sources

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Publication Date: 2019-06-28

Description: Laser range measurements are used to determine the orbit of Seasat during the period from July 28, 1978, to Aug. 14, 1978, and the influence of the gravity field, atmospheric drag, and solar radiation pressure on the orbit accuracy is investigated. It is noted that for the orbits of three-day duration, little distinction can be made between the influence of different atmospheric models. It is found that the special Seasat gravity field PGS-S3 is most consistent with the data for three-day orbits, but an unmodeled systematic effect in radiation pressure is noted. For orbits of 18-day duration, little distinction can be made between the results derived from the PGS gravity fields. It is also found that the geomagnetic field is an influential factor in the atmospheric modeling during this time period. Seasat altimeter measurements are used to determine the accuracy of the altimeter measurement time tag and to evaluate the orbital accuracy.

Keywords: ASTRODYNAMICS

Type: Journal of the Astronautical Sciences; 28; Oct

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10

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Measuring the Lense-Thirring precession using a second Lageos satellite (1989)

Ciufolini, I. ; Tapley, B. D.

In: CASI

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Publication Date: 2019-06-28

Description: A complete numerical simulation and error analysis was performed for the proposed experiment with the objective of establishing an accurate assessment of the feasibility and the potential accuracy of the measurement of the Lense-Thirring precession. Consideration was given to identifying the error sources which limit the accuracy of the experiment and proposing procedures for eliminating or reducing the effect of these errors. Analytic investigations were conducted to study the effects of major error sources with the objective of providing error bounds on the experiment. The analysis of realistic simulated data is used to demonstrate that satellite laser ranging of two Lageos satellites, orbiting with supplemental inclinations, collected for a period of 3 years or more, can be used to verify the Lense-Thirring precession. A comprehensive covariance analysis for the solution was also developed.

Keywords: ASTRODYNAMICS

Type: NASA-CR-186945 , NAS 1.26:186945 , CSR-89-3

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