论文信息 - Nonlinear attitude control of flexible spacecraft under disturbance torque

Nonlinear attitude control of flexible spacecraft under disturbance torque

Abstract We present a control law for large-angle single-axis rotational maneuvers of a spacecraft-beamtip body (an antenna or a reflector) configuration. It is assumed that an unknown but bounded disturbance torque is acting on the spacecraft. A model reference adaptive torque control law is derived for the slewing of the space vehicle. This controller includes a dynamic system in the feedback path and requires only attitude angle and rate of the space vehicle for feedback. For damping out the elastic motion excited by the slewing maneuver, a stabilizer is designed assuming that a torquer and a force actuator are available at the tip body. The stabilizer uses only the flexible modes for the synthesis of the control law. Simulation results are presented to show that fast, large-angle rotational maneuvers can be performed using the adaptive controller and the stabilizer in spite of the presence of continuously acting unknown torque on the spacecraft.

Sahjendra N. Singh

[1] James D. Turner,et al. Optimal distributed control of a flexible spacecraft during a large-angle maneuver , 1984 .

[2] R. P. Iwens,et al. Stability of Large Space Structure Control Systems Using Positivity Concepts , 1981 .

[3] A. Hale,et al. OPTIMAL DESIGN FOR SINGLE AXIS ROTATIONAL MANEUVERS OF A FLEXIBLE STRUCTURE , 1984 .

[4] M. Corless,et al. Adaptive control of systems containing uncertain functions and unknown functions with uncertain bounds , 1983 .

[5] J. Junkins,et al. Optimal Large-Angle Single-Axis Rotational Maneuvers of Flexible Spacecraft , 1980 .

[6] Controller design for asymptotic stability of flexible spacecraft , 1981, 1981 20th IEEE Conference on Decision and Control including the Symposium on Adaptive Processes.

[7] A. Arbel,et al. Robust colocated control for large flexible space structures , 1981 .

[8] Sahjendra N. Singh. Adaptive model following control of nonlinear robotic systems , 1985 .

[9] Amit Bhaya,et al. On the design of large flexible space structures (LFSS) , 1985 .

[10] Stephen Gates,et al. Planar dynamics of a uniform beam with rigid bodies affixed to the ends , 1983 .

[11] James D. Turner,et al. OPTIMAL DISTRIBUTED CONTROL OF' A FLEXIBLE SPACECRAFT DURING A LARGE-ANGLE ROTATIONAL MANEUVER , 1981 .

[12] M. Balas. Direct Velocity Feedback Control of Large Space Structures , 1979 .

[13] J. A. Breakwell,et al. Optimal feedback slewing of flexible spacecraft , 1981 .