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Non-Linear Adaptive Attitude Control of Rigid Body in Space
Technical Paper
2006-01-2416
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This paper looks at the attitude control of space vehicles. In this research, a new self-tuning adaptive attitude control law has been developed for spatial tracking control of a general rigid satellite. The goal of this research is to demonstrate an adaptive control system that can accurately compensate for modeling and parameters uncertainties. This method can be adapted to unknown parameter variation, for typical flight regimes. Our approach is based on obtaining general rigid body kinematics and dynamics equations. Among different approaches used for defining attitude of a rigid body quaternions or Euler parameters are used in this study. The control law is based on the theory of non-linear feedback linearization. It is shown that the control law is stable according to Lyapunov stability criteria. The design variables of system are inertia properties of rigid body. It is assumed that inertia tensor of the body is unknown. The inertia tensor is estimated using standard least square with bounded gain forgetting method.
The total controller and plant model is simulated using MATLAB. Simulation results are provided to illustrate the salient features of the approach. This results show the stability of system, i.e. the adaptive controller is stable and all tracking errors and state variables errors converge to zero. Also according to simulation results, it was confirmed that by using bounded gain forgetting method with standard least square, the estimator would be faster and the estimation errors would be smaller in comparison with using standard least square estimator alone.
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Citation
Dolatabadi, A. and Kabganian, M., "Non-Linear Adaptive Attitude Control of Rigid Body in Space," SAE Technical Paper 2006-01-2416, 2006, https://doi.org/10.4271/2006-01-2416.Also In
References
- Kaplan Marshall H. “Modern Spacecraft Dynamics and Control” John Wiley & Sons New York 1976
- Zhou K. Doyle J. “Essentials of Robust Control” Prentice Hall 1998
- Fortescue P. Stark J. “Spacecraft Systems Engineering” John Wiley 1992
- Sing Sahjendra N. “Nonlinear Adaptive Attitude Control of Spacecraft” IEEE Transaction on Aerospace and Electronic Systems 23 3 371 379 1987
- Slotin J. J. E. Di Beneditto M. D. “Hamiltonian Adaptive Control of Spacecraft” IEEE Transaction on Automatic Control 35 7 848 852 1990
- Parlos Alexander G. Sunkel John W. “Adaptive Attitude Control and Momentum Management for Large-Angle Spacecraft Maneuvers” J. of Guidance, Control and Dynamic 15 4 1018 1028 1992
- Zhao, X. M. Shieh, L. S. Sunkel, J. W. Self tuning Control of Attitude and Momentum Management for the Space Station Journal of Guidance, Control and Dynamic 15 1 17 27 1992
- Egeland, O. Godhavn, J. M. Passivity-Based Adaptive Attitude Control of a Rigid Spacecraft IEEE Transaction on Automatic Control 39 4 840 845 1994
- Cristi, R. Burl, J. Russo, N. Adaptive Quaternion Regulation for Eigenaxis Rotation Journal of Guidance, Control and Dynamic 7 6 1287 1291 1994
- Junkins, John L. Akella, Maruthi R. Robinett, Rush D. Nonlinear Adaptive Control of Spacecraft Maneuvers Journal of Guidance, Control and Dynamic 20 6 1104 1110 1997
- Paynter, Scott J. Bishop, Robert H. Adaptive Nonlinear Attitude Control and Momentum Management of Spacecraft Journal of Guidance, Control and Dynamic 20 5 1025 1032 1997
- Ahmed Jasim Coppola Vincent T. Bernstein Dennis S. “Adaptive Asymptotic Tracking of Spacecraft Attitude Motion with Inertia Matrix Identification” Journal of Guidance, Control and Dynamic 21 5 684 691 1998
- Schaub, H. Akella, Maruthi R. Junkins, John L. Adaptive Control of Nonlinear Attitude Motions Realizing Linear Closed-Loop Dynamics IEEE Transaction On Automatic Control Feb 1999
- Wertz James R. “Spacecraft Attitude Determination and Control” Kluwer Academic Publishers Boston 1988
- Slotine, J. J. E. Li, W. Applied Nonlinear Control Prentice-Hall 1991