Optimal control approach for robust control design of neutral systems

We consider the problem of stabilizing a class of nonlinear uncertain systems. The system possesses (possibly fast) time-varying uncertainty which lies within a prescribed set. No statistical information of the uncertainty is imposed. A new robust control design which ensures practical stability is

## Abstract This paper deals with the problem of robust __H__~∞~ control for uncertain linear neutral delay systems. The parameter uncertainty under consideration is assumed to be norm‐bounded time‐invariant and appears in all the matrices of the state‐space model. The problem we address is the des

A new robust linear controller design procedure is applied to the design of a controller for the heating system of a pilot plant distillation column. The heating system exhibits nonlinear dynamics. For design purposes, it is represented by seven linear time-invariant models obtained at di!erent oper

## Abstract The problem of jointly designing the optimal steady‐state transition and the related tracking controller for a representative class of exothermic continuous chemical reactors is addressed. The combination of optimal, constructive, and conventional control ideas yields a design methodolo

## Abstract This paper is devoted to robust iterative learning control (ILC) design for time‐delay systems (TDS) with uncertainties in both model plant and delay time. An ILC law is considered by using anticipation in time to compensate for the effects of delay, which has three design parameters: t