📝 SummarXiv

Abstract

Two general upper bounds on the topological entropy of nonlinear time-varying systems are established: one using the matrix measure of the system Jacobian, the other using the largest real part of the eigenvalues of the Jacobian matrix with off-diagonal entries replaced by their absolute values. A general lower bound is constructed using the trace of the Jacobian matrix. For interconnected systems, an upper bound is first derived by adapting one of the general upper bounds, using the matrix measure of an interconnection matrix function. A new upper bound is then developed using the largest real part of the eigenvalues of this function. This new bound is closely related to the individual upper bounds for subsystems and implies each of the two general upper bounds when the system is viewed as one of two suitable interconnections. These entropy bounds all depend only on upper or lower limits of the Jacobian matrix along trajectories.