论文信息 - Complete decomposition of sub-optimal regulators for singularly perturbed systems

Complete decomposition of sub-optimal regulators for singularly perturbed systems

The linear regulator problem is studied for systems with slow and fast modes. Using the descriptor variable method, the design of sub-optimal regulators for such systems is completely decomposed. It is shown that the sub-optimal regulator is composed of fast and slow regulators, and that both of these, mutually decoupled, can be designed independently. A relevant computational procedure is also presented. The procedure is applicable to designs of sub-optimal regulators with either finite or infinite terminal time, and for both singular and normal singularly perturbed systems.

Yue-Yun Wang | Paul M. Fkank | Yue-Yun Wang

[1] D. Cobb,et al. Descriptor variable systems and optimal state regulation , 1983 .

[2] A. Laub,et al. The linear-quadratic optimal regulator for descriptor systems , 1987 .

[3] Paul M. Frank,et al. The robustness properties of the linear quadratic regulators for singular systems , 1993, IEEE Trans. Autom. Control..

[4] T. Kailath,et al. A generalized state-space for singular systems , 1981 .

[5] D. Cobb. Controllability, observability, and duality in singular systems , 1984 .

[6] P. Kokotovic,et al. A decomposition of near-optimum regulators for systems with slow and fast modes , 1976 .

[7] Songjiao Shi,et al. A descriptor-system approach to singular perturbation of linear regulators , 1988 .

[8] P. Kokotovic,et al. Singular perturbation of linear regulators: Basic theorems , 1972 .