Marek Kyspin, Janusz Mierczynski, Sylvia Novo, Rafael Obaya
Published 2023-05-29Version 1
This paper deals with the exponential separation of type II, an important concept for random systems of differential equations with delay, introduced in \JM\ et al.~\cite{MiNoOb1}. Two different approaches to its existence are presented. The state space $X$ will be a separable ordered Banach space with $\dim X\geq 2$, dual space $X^{*}$ and positive cone $X^+$ normal and reproducing. In both cases, appropriate cooperativity and irreducibility conditions are assumed to provide a family of generalized Floquet subspaces. If in addition $X^*$ is also separable, one obtains a exponential separation of type II. When this is not the case, but there is an Oseledets decomposition for the continuous semiflow, the same result holds. Detailed examples are given for all the situations, including also a case where the cone is not normal.
Comments: arXiv admin note: text overlap with arXiv:1705.01319
Lyapunov exponents and Oseledets decomposition in random dynamical systems generated by systems of delay differential equations
Principal Floquet subspaces and exponential separations of type II with applications to random delay differential equations
Averaging in random systems of nonnegative matrices
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