Exact controllability and optimal control for distributed systems with a discrete delayed control

In this paper we consider a linear time-varying system with state and control delay terms, both lumped and distributed, subject to unknown, square integrable disturbances. Using a differential games approach, we provide a necessary and sufficient condition for the existence of an optimal control law

## Abstract Stochastic adaptive __d__‐step‐ahead optimal control is analyzed in this paper. An adaptive controller using the least squares (LS) algorithm and an input matching technique is proposed to combine the globally convergent estimation character of the adaptive tracking and optimally‐based

AImtract--Industrial plants which contain unilateral flow of material are considered. First, it is shown that such plants can be represented by finite-dimensional difference equations after sampling. Then, the design of discrete-time optimal control systems is studied based on the difference equatio

In this paper, we consider a nonlinear elliptic control system with distributed and boundary controls and with the integral cost functional. Some sufficient conditions under which the solutions of the elliptic systems continuously depend on boundary and distributed controls are presented. The proof

A finite dimensional control theory is developed for the design of a proportional plus integral control law for tracking step command inputs in general autonomous time-lag systems with distributed heredity in state, control and output variables. With respect to an ordinary differential equation desc