A Distributed Observer for a Time-Invariant Linear System

Abstract

A time-invariant, linear, distributed observer is described for estimating the state of an m>0 channel, n-dimensional continuous-time linear system of the form x = Ax,\ yi = Ci x,\ i ∈ \1,2,·s, m\. The state x is simultaneously estimated by m agents assuming each agent i senses yi and receives the state zj of each of its neighbors' estimators. Neighbor relations are characterized by a constant directed graph N whose vertices correspond to agents and whose arcs depict neighbor relations. The overall distributed observer consists of m linear estimators, one for each agent; m-1 of the estimators are of dimension n and one estimator is of dimension n+m-1. Using results from classical decentralized control theory, it is shown that subject to the assumptions that (i) none of the Ci are zero, (ii) the neighbor graph N is strongly connected, (iii) the system whose state is to be estimated is jointly observable, and nothing more, it is possible to freely assign the spectrum of the overall distributed observer.