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Autores principales: Goebel, Rafal K., Teel, Andrew R.
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2604.08807
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author Goebel, Rafal K.
Teel, Andrew R.
author_facet Goebel, Rafal K.
Teel, Andrew R.
contents Asymptotic properties of discrete, stochastic approximations to hybrid systems, modeled as hybrid inclusions, are studied. First, the internal chain transitivity of omega-limits of solutions is concluded, along with other properties related to chain recurrence and transitivity. A concept of an asymptotic solution is proposed to describe any mapping that, asymptotically, resembles a solution, and for which the chain transitivity properties also turn out to hold. The mentioned developments are carried out in an abstract setting of a generalized hybrid system defined by a set of hybrid curves, each defined on a hybrid time domain, and possibly consisting of all solutions to a given hybrid inclusion. Then, more specific kinds of perturbed solutions to a hybrid inclusion are proposed and shown to include the solutions of a discretization and of a stochastic approximation to the hybrid inclusion. Consequently, appropriate discretizations and stochastic approximations of a hybrid inclusion produce mappings whose omega limits are internally chain transitive for the underlying hybrid inclusion.
format Preprint
id arxiv_https___arxiv_org_abs_2604_08807
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Chain transitivity in generalized hybrid dynamics with application to simulation and stochastic approximation of hybrid systems
Goebel, Rafal K.
Teel, Andrew R.
Dynamical Systems
Asymptotic properties of discrete, stochastic approximations to hybrid systems, modeled as hybrid inclusions, are studied. First, the internal chain transitivity of omega-limits of solutions is concluded, along with other properties related to chain recurrence and transitivity. A concept of an asymptotic solution is proposed to describe any mapping that, asymptotically, resembles a solution, and for which the chain transitivity properties also turn out to hold. The mentioned developments are carried out in an abstract setting of a generalized hybrid system defined by a set of hybrid curves, each defined on a hybrid time domain, and possibly consisting of all solutions to a given hybrid inclusion. Then, more specific kinds of perturbed solutions to a hybrid inclusion are proposed and shown to include the solutions of a discretization and of a stochastic approximation to the hybrid inclusion. Consequently, appropriate discretizations and stochastic approximations of a hybrid inclusion produce mappings whose omega limits are internally chain transitive for the underlying hybrid inclusion.
title Chain transitivity in generalized hybrid dynamics with application to simulation and stochastic approximation of hybrid systems
topic Dynamical Systems
url https://arxiv.org/abs/2604.08807