Extended discrete-time LTR synthesis of delayed control systems,

-This paper addresses compensation of dealys within a multi-input-multi-output discrete-time feedback loop for application to real-time distributed control systems. The delay compensation algorithm, formulated, in this paper, is an extension of the standard loop transfer recovery (LTR) procedure from one-step prediction to the general case of p-step prediction ( p > l ) . It is shown that the steady-state minimum-variance filter gain is the /-/2minimization solution of the relative error between the target sensitivity matrix and the actual sensitivity matrix for p-step prediction (p --1). This concept forms the basis for synthesis of robust p-step delay compensators (p > 1). The proposed control synthesis procedure for delay compensation is demonstrated via simulation of the flight control system of an advanced aircraft.