论文信息 - A corrective feedback design for nonlinear systems with fast actuators

A corrective feedback design for nonlinear systems with fast actuators

Recent two-time-scale results can be derived from a geometric framework which allows further extensions and computational improvements. In this note the two-time scale behavior of singularly perturbed systems is exploited to design slow and fast controls and to combine them into a composite control. As an illustration, we present a corrective design to compensate for fast actuator dynamics modeled as singular perturbations.

P. Kokotovic | K. Khorasani

[1] F. Hoppensteadt. Properties of solutions of ordinary differential equations with small parameters , 1971 .

[2] E. Kamen. Lectures on algebraic system theory: Linear systems over rings , 1978 .

[3] Neil Fenichel. Geometric singular perturbation theory for ordinary differential equations , 1979 .

[4] Thomas Kailath,et al. Linear Systems , 1980 .

[5] R. Su. On the linear equivalents of nonlinear systems , 1982 .

[6] E. W. Kamen,et al. Linear systems with commensurate time delays: stability and stabilization independent of delay , 1982 .

[7] V. Sobolev. Integral manifolds and decomposition of singularly perturbed systems , 1984 .

[8] E. Lee,et al. Coefficient assignability for linear systems with delays , 1984 .