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Spin-Stabilized Spacecrafts: Analytical Attitude Propagation Using Magnetic Torques (2009)

Garcia, Roberta Veloso ; Zanardi, Maria Cecília F. P. S. ; Kuga, Hélio Koiti

Hindawi

In: Mathematical Problems in Engineering. 2009; 2009: 1-18. Published 2009 Jan 01. doi: 10.1155/2009/242396.

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Publication Date: 2009-01-01

Description: An analytical approach for spin-stabilized satellites attitude propagation is presented, considering the influence of the residual magnetic torque and eddy currents torque. It is assumed two approaches to examine the influence of external torques acting during the motion of the satellite, with the Earth's magnetic field described by the quadripole model. In the first approach is included only the residual magnetic torque in the motion equations, with the satellites in circular or elliptical orbit. In the second approach only the eddy currents torque is analyzed, with the satellite in circular orbit. The inclusion of these torques on the dynamic equations of spin stabilized satellites yields the conditions to derive an analytical solution. The solutions show that residual torque does not affect the spin velocity magnitude, contributing only for the precession and the drift of the spacecraft's spin axis and the eddy currents torque causes an exponential decay of the angular velocity magnitude. Numerical simulations performed with data of the Brazilian Satellites (SCD1 and SCD2) show the period that analytical solution can be used to the attitude propagation, within the dispersion range of the attitude determination system performance of Satellite Control Center of Brazil National Research Institute.

Print ISSN: 1024-123X

Electronic ISSN: 1563-5147

Topics: Mathematics , Technology

Published by Hindawi

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Unscented Kalman Filter Applied to the Spacecraft Attitude Estimation with Euler Angles (2012)

Garcia, Roberta Veloso ; Kuga, Helio Koiti ; Zanardi, Maria Cecilia F. P. S.

Hindawi

In: Mathematical Problems in Engineering. 2012; 2012: 1-12. Published 2012 Jan 01. doi: 10.1155/2012/985429.

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Publication Date: 2012-01-01

Description: The aim of this work is to test an algorithm to estimate, in real time, the attitude of an artificial satellite using real data supplied by attitude sensors that are on board of the CBERS-2 satellite (China Brazil Earth Resources Satellite). The real-time estimator used in this work for attitude determination is the Unscented Kalman Filter. This filter is a new alternative to the extended Kalman filter usually applied to the estimation and control problems of attitude and orbit. This algorithm is capable of carrying out estimation of the states of nonlinear systems, without the necessity of linearization of the nonlinear functions present in the model. This estimation is possible due to a transformation that generates a set of vectors that, suffering a nonlinear transformation, preserves the same mean and covariance of the random variables before the transformation. The performance will be evaluated and analyzed through the comparison between the Unscented Kalman filter and the extended Kalman filter results, by using real onboard data.

Print ISSN: 1024-123X

Electronic ISSN: 1563-5147

Topics: Mathematics , Technology

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Study of Stability of Rotational Motion of Spacecraft with Canonical Variables (2012)

Reis Silva, William ; Zanardi, Maria Cecília F. P. S. ; Cabette, Regina Elaine Santos ; [et al.]

Hindawi

In: Mathematical Problems in Engineering. 2012; 2012: 1-19. Published 2012 Jan 01. doi: 10.1155/2012/137672.

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Publication Date: 2012-01-01

Description: This work aims to analyze the stability of the rotational motion of artificial satellites in circular orbit with the influence of gravity gradient torque, using the Andoyer variables. The used method in this paper to analyze stability is the Kovalev-Savchenko theorem. This method requires the reduction of the Hamiltonian in its normal form up to fourth order by means of canonical transformations around equilibrium points. The coefficients of the normal Hamiltonian are indispensable in the study of nonlinear stability of its equilibrium points according to the three established conditions in the theorem. Some physical and orbital data of real satellites were used in the numerical simulations. In comparison with previous work, the results show a greater number of equilibrium points and an optimization in the algorithm to determine the normal form and stability analysis. The results of this paper can directly contribute in maintaining the attitude of artificial satellites.

Print ISSN: 1024-123X

Electronic ISSN: 1563-5147

Topics: Mathematics , Technology

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Effects of solar radiation pressure torque on the rotational motion of an artificial satellite (1992)

Zanardi, Maria Cecilia F. P. S. ; Vilhenademoraes, Rodolpho

In: Other Sources

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Publication Date: 2019-01-25

Description: The motion of an artificial satellite about its center of mass is studied considering torques due to the gravity gradient and direct solar radiation pressure. A model for direct solar radiation torque is derived for a circular cylindrical satellite. An analytical solution is obtained by the method of variation of the parameters. This solution shows that the angular variables have secular variation but that the modulus of the rotational angular momentum, the projection of rotational angular momentum on the z axis of the moment of inertia and inertial axis z, suffer only periodic variations. Considering a hypothetical artificial satellite, a numerical application is demonstrated.

Keywords: ASTRODYNAMICS

Type: Technion - Israel Inst. of Tech., Proceedings of the Second International Workshop on Civilian Space Applications; p 117-124

Format: text

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Analytical Approach Validation for the Spin-Stabilized Satellite Attitude (2007)

Zanardi, Maria Cecilia F. P. S. ; Garcia, Roberta Veloso ; Kuga, Helio Koiti

In: CASI

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Publication Date: 2018-06-06

Description: An analytical approach for spin-stabilized spacecraft attitude prediction is presented for the influence of the residual magnetic torques and the satellite in an elliptical orbit. Assuming a quadripole model for the Earth s magnetic field, an analytical averaging method is applied to obtain the mean residual torque in every orbital period. The orbit mean anomaly is used to compute the average components of residual torque in the spacecraft body frame reference system. The theory is developed for time variations in the orbital elements, giving rise to many curvature integrals. It is observed that the residual magnetic torque does not have component along the spin axis. The inclusion of this torque on the rotational motion differential equations of a spin stabilized spacecraft yields conditions to derive an analytical solution. The solution shows that the residual torque does not affect the spin velocity magnitude, contributing only for the precession and the drift of the spin axis of the spacecraft. The theory developed has been applied to the Brazilian s spin stabilized satellites, which are quite appropriated for verification and comparison of the theory with the data generated and processed by the Satellite Control Center of Brazil National Research Institute. The results show the period that the analytical solution can be used to the attitude propagation, within the dispersion range of the attitude determination system performance of Satellite Control Center of Brazil National Research Institute.

Keywords: Spacecraft Design, Testing and Performance

Type: Proceedings of the 20th International Symposium on Space Flight Dynamics; NASA/CP-2007-214158

Format: application/pdf

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