Almost disturbance decoupling with stabilization by measurement feedback

In this paper the almost disturbance decoupling problem (ADDP) for a multivariable linear system is studied by means of a proportional derivative (PD) state feedback law, u = Fx + R~. A condition for solvability of the ADDP by state feedback has been given by Willems (IEEE Trans. Aut. Control, AC-26

This paper considers the disturbance decoupling problem in decentralized linear multivariable systems. Necessary and sufficient conditions are derived for the resolution of the problem using local measured output control laws in both static and dynamic cases. Procedures for the construction of the c

State feedback and full order/reduced order measurement feedback controllers are explicitly constructed that solve the H almost disturbance decoupling problems for general linear discrete-time systems. Keys to the explicit construction of these controllers are structural decompositions of the system

Structured transfer matrix systems are linear systems given by transfer matrices of which the infinite zero order of each nonzero entry is known, while the associated infinite gains are unknown and assumed mutually independent. In this paper necessary and sufficient conditions are derived for the ge