Decentralized minimum-energy control and coordination of large scale linear systems

Connective stabilizability of large-scale systems, which are composed of interconnected subsystems, is considered using decentralized feedback. Both analytical and graph-theoretic conditions are derived directly in terms of the interconnection structure, which ensure that stability of the overall cl

Al~rKt--This paper is concerned with the problem of robust stabilization for nonlinearly perturbed large-scale systems via decentralized observer-controller compensators. The large-scale system is composed of several interconnected perturbed subsystems, each containing a nonlinearly perturbed plant

This paper aims to analyse the system stability when decentralized adaptive controllers are applied to multi-input/multi-output non-linear interconnected systems. The local adaptive controllers are designed based on linear models by employing relative deadzones. Using a small-gain-type argument, we

Bond graph models of linear multiport systems may be simulated by a program, ENPORT, which features a choice of physically-significant state variables and an ability to simulate systems containing static storage subfields. Summary--A large number of physical and engineering systems may be represent