Scaling Laws for Disturbance Propagation in Cyclic Dynamical Networks

Abstract

Our goal is to analyze performance of stable linear dynamical networks subject to external stochastic disturbances. The square of the H2-norm of the network is used as a performance measure to quantify the expected steady-state dispersion of the outputs of the network. We show that this performance measure can be tightly bounded from below and above by some spectral functions of the state-space matrices of the network. This result is applied to a class of cyclic linear networks and shown that their performance measure scale quadratically with the network size.