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作 者:Javad Tayebi Ti Chen Hao Wang
机构地区:[1]Istate Key Laboratory of Mechanics and Control of Aerospace Structures,Nanjing University of Aeronautics and Astronautics,29 Yudao St.,Nanjing 210016,Jiangsu,People's Republic of China [2]Department of Earth and Space Science and Engineering,York University,4700 Keele St.,Toronto M3J 1P3,Canada
出 处:《Space(Science & Technology)》2023年第1期528-538,共11页空间科学与技术(英文)
基 金:supported by the National Natural Science Foundation of China(Grant Nos.12102174 and 12232011);the Research Fund of State Key Laboratory of Mechanics and Control of Mechanical Structures(Nanjing University of Aeronautics and astronautics)(Grant No.MCMS-I-0122K01).
摘 要:This paper presents a disturbance observer-based linear quadratic Gaussian(LQG)control strategy to stabilize the flexible spacecraft considering the vibration suppression of flexible appendages using an orthogonal cluster of magnetically suspended reaction sphere actuators.The nonlinear dynamic equation of a flexible satellite is given and then linearized using the Jacobian method to get a linear state-space model.The dynamic equation of the reaction sphere actuators is derived by considering 2 virtual gimbals.A new steering law is designed to produce the tilt angle commands of orthogonal reaction sphere actuators.The proposed disturbance observer-based LQG considers process disturbances and measurement noises,and performs a trade-off search between control efforts and regulation performance.Numerical simulations are performed to evaluate the proposed strategies for an attitude stabilization scenario,and the results illustrate that the disturbances are effectively mitigated.
关 键 词:STABILIZATION linearized CLUSTER
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