论文信息 - Application of stochastic robustness to aircraft control systems

Application of stochastic robustness to aircraft control systems

Stochastic robustness, a simple numerical procedure for estimating the stability robustness of linear, time-invariant systems, is applied to a forward-swept-wing aircraft control system. Based on Monte Carlo evaluation of the system's closed-loop eignevalues, this analysis approach introduces the probability of instability as a scalar stability robustness measure. The related stochastic root locus provides insight into robustness characteristics of the closed-loop system. Three Linear Quadratic controllers of decreasing robustness are chosen to demonstrate the use of stochastic robustness to analyze and compare control designs. Examples are presented illustrating the use of stochastic robustness analysis to address the effects of actuator dynamics and unmodeled dynamics on the stability robustness of the forward-swept-wing aircraft.

Robert F. Stengel | Laura Ryan Ray

[1] R. Stengel,et al. Technical notes and correspondence: Stochastic robustness of linear time-invariant control systems , 1991 .

[2] Min-Jea Tahk,et al. Modeling of parameter variations and asymptotic LQG synthesis , 1987 .

[3] R. Stengel. Stochastic Optimal Control: Theory and Application , 1986 .

[4] Robert F. Stengel,et al. Multivariate Histograms for Analysis of Linear Control System Robustness , 1989, 1989 American Control Conference.

[5] Robert F. Stengel,et al. Some Effects of Parameter Variations on the Lateral-Directional Stability of Aircraft , 1980 .

[6] W. Evans,et al. Graphical Analysis of Control Systems , 1948, Transactions of the American Institute of Electrical Engineers.