Strong stabilization of MIMO systems via H∞ optimization

A state-space-based design method is developed to construct strongly stabilizing controllers for a class of MIMO plants. The problem is reduced to solving an algebraic Riccati equation (ARE) which appears in the solution of a two-block H problem. Strongly stabilizing controllers designed here are of

Previous work on asymptotic stabilization of MIMO non-linear systems using dynamic sliding mode control to produce dynamic state feedback has been generalized to dynamic output feedback. All the states in the feedback controller are replaced with estimated states which come from a semi-high-gain obs

We consider the problem of approximating a p × m rational transfer function H (s) of high degree by another p × m rational transfer function H (s) of much smaller degree. We derive the gradients of the H 2 -norm of the approximation error and show how stationary points can be described via tangentia

Simultaneous stabilization with asymptotic tracking of step-input references is explored for linear, time-invariant, multi-input multi-output stable plants. Necessary conditions are presented for existence of simultaneous integral-action controllers and existence of simultaneous PIDcontrollers. A sy

An extension of backstepping to a class of multivariable minimum-phase nonlinear systems is proposed. The systems are assumed to be in a special interlaced form which includes a lower triangular form as a special case. The extension involves the recursive application of backstepping and augmentation