Decoupling without prediction of linear systems with delays: A structural approach

The problem of input-output decouplin 9 for linear systems with nonlinear uncertain structure, via an independent q# the uncertainties static output feedback law, is solved. The necessary and sufficient conditions for the problem have a solution are established. The 9eneral analytical expressions of

systems involving time delays are expressed by differential-difference equations or by ordinarypartial differential equations, the practical computation [4-6] of an optimal control from the optimality condition needs enormous efforts, and it becomes almost impossible when the system order is high. T

parameterization approach is used to deal with the disturbance decoupling problem with stability of nonlinear systems. It is shown that one may cast within this approach two different methods proposed earlier. A complete solution is also provided to the disturbance decoupling problem with stability

In this paper, the stability of nonlinear systems with time-varying delays is investigated by means of the concepts of generalized Dahlquist constant, generalized relative Dahlquist constant and relative minimal Lipschitz constant. In detail, two sufficient conditions are derived for the exponential