Robust parametric eigenstructure assignment

Abstract

AIAA, Guidance, Navigation and Control Conference, San Diego, CA, July 29-31, 1996 This paper is concerned with robust eigenstructure assignment for multivariable systems. It combines time-domain performance specifications provided by eigenstructure assignment and robust performance specifications in the frequency domain considered by H-infinity control to realize joint optimal robust control design. A parametric expression for state-feedback eigenstructure assignment is derived for the case where the sets of closed- and open-loop eigenvalues do not intersect, which is based on a set of free parameters. All complex operations are converted into the real field so that the algorithm which is developed for the controller design can be easily implemented on computers. It uses a robustness index defined in the frequency domain as the cost function. The analytical gradient calculation of the cost function with respect to the free parameters is given. Using gradient-based optimization, the robustness index is minimized by making full use of the freedom provided by eigenstructure assignment. (Author)