论文信息 - Gyrodampers for large space structures

Gyrodampers for large space structures

The problem of controlling the vibrations of a large space structures by the use of actively augmented damping devices distributed throughout the structure is addressed. The gyrodamper which consists of a set of single gimbal control moment gyros which are actively controlled to extract the structural vibratory energy through the local rotational deformations of the structure, is described and analyzed. Various linear and nonlinear dynamic simulations of gyrodamped beams are shown, including results on self-induced vibrations due to sensor noise and rotor imbalance. The complete nonlinear dynamic equations are included. The problem of designing and sizing a system of gyrodampers for a given structure, or extrapolating results for one gyrodamped structure to another is solved in terms of scaling laws. Novel scaling laws for gyro systems are derived, based upon fundamental physical principles, and various examples are given.

G. Margulies | J. Aubrun | G. Margulies | J. N. Aubrun

[1] J. Rodden. Performance of gravity-gradient VCMG systems , 1969 .

[2] G. Margulies. Geometric Theory of Single-Gimbal Control Moment Gyro System , 1978 .

[3] J. Aubrun. Theory of the control of structures by low authority controllers , 1978 .

[4] G. E. Fleischer,et al. Multibody system applications and simulations at the Jet Propulsion Laboratory. [emphasizing attitude and science platform articulation control] , 1978 .

[5] J. N. Aubrun,et al. Theory of the control of structures by low authority controllers , 1978 .

[6] H. Helmholtz. Über Integrale der hydrodynamischen Gleichungen, welche den Wirbelbewegungen entsprechen. , 1858 .