Error Bounds Based Stochastic Approximations and Simulations of Hybrid Dynamical Systems

Error Bounds Based Stochastic Approximations and Simulations of Hybrid Dynamical Systems
Alessandro Abate, Aaron Ames, Shankar Sastry

Citation
Alessandro Abate, Aaron Ames, Shankar Sastry. "Error Bounds Based Stochastic Approximations and Simulations of Hybrid Dynamical Systems". Proceedings of the 25th American Control Conference, June, 2006.

Abstract
This paper introduces, develops and discusses an integration-inspired methodology for the simulation and analysis of deterministic hybrid dynamical systems. When simulating hybrid systems, and thus unavoidably introducing some numerical error, a progressive tracking of this error can be exploited to discern the properties of the system, i.e., it can be used to introduce a stochastic approximation of the original hybrid system, the simulation of which would give a more complete representation of the possible trajectories of the system. Moreover, the error can be controlled to check and even guarantee (in certain special cases) the robustness of simulated hybrid trajectories.

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HTML

Alessandro Abate, Aaron Ames, Shankar Sastry. <a
href="http://chess.eecs.berkeley.edu/pubs/212.html"
>Error Bounds Based Stochastic Approximations and
Simulations of Hybrid Dynamical Systems</a>,
Proceedings of the 25th American Control Conference, June,
2006.

Plain text

Alessandro Abate, Aaron Ames, Shankar Sastry. "Error
Bounds Based Stochastic Approximations and Simulations of
Hybrid Dynamical Systems". Proceedings of the 25th
American Control Conference, June, 2006.

BibTeX

@inproceedings{AbateAmesSastry06_ErrorBoundsBasedStochasticApproximationsSimulationsOf,
    author = {Alessandro Abate and Aaron Ames and Shankar Sastry},
    title = {Error Bounds Based Stochastic Approximations and
              Simulations of Hybrid Dynamical Systems},
    booktitle = {Proceedings of the 25th American Control Conference},
    month = {June},
    year = {2006},
    abstract = {This paper introduces, develops and discusses an
              integration-inspired methodology for the
              simulation and analysis of deterministic hybrid
              dynamical systems. When simulating hybrid systems,
              and thus unavoidably introducing some numerical
              error, a progressive tracking of this error can be
              exploited to discern the properties of the system,
              i.e., it can be used to introduce a stochastic
              approximation of the original hybrid system, the
              simulation of which would give a more complete
              representation of the possible trajectories of the
              system. Moreover, the error can be controlled to
              check and even guarantee (in certain special
              cases) the robustness of simulated hybrid
              trajectories.},
    URL = {http://chess.eecs.berkeley.edu/pubs/212.html}
}

Posted by Alessandro Abate on 24 Apr 2007.
Groups: chess
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