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Convergence Rates of Gaussian ODE Filters

2018

Article

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A recently-introduced class of probabilistic (uncertainty-aware) solvers for ordinary differential equations (ODEs) applies Gaussian (Kalman) filtering to initial value problems. These methods model the true solution $x$ and its first $q$ derivatives a priori as a Gauss--Markov process $\boldsymbol{X}$, which is then iteratively conditioned on information about $\dot{x}$. We prove worst-case local convergence rates of order $h^{q+1}$ for a wide range of versions of this Gaussian ODE filter, as well as global convergence rates of order $h^q$ in the case of $q=1$ and an integrated Brownian motion prior, and analyse how inaccurate information on $\dot{x}$ coming from approximate evaluations of $f$ affects these rates. Moreover, we present explicit formulas for the steady states and show that the posterior confidence intervals are well calibrated in all considered cases that exhibit global convergence---in the sense that they globally contract at the same rate as the truncation error.

Author(s): Hans Kersting and T. J. Sullivan and Philipp Hennig
Journal: arXiv preprint 2018
Volume: arXiv:1807.09737 [math.NA]
Year: 2018
Month: July

Department(s): Probabilistic Numerics
Research Project(s): Probabilistic Solvers for Ordinary Differential Equations
Bibtex Type: Article (article)
Paper Type: Journal

URL: http://arxiv.org/abs/1807.09737

BibTex

@article{KerstingSullivanHennig18,
  title = {Convergence Rates of Gaussian ODE Filters},
  author = {Kersting, Hans and Sullivan, T. J. and Hennig, Philipp},
  journal = {arXiv preprint 2018},
  volume = {arXiv:1807.09737 [math.NA]},
  month = jul,
  year = {2018},
  url = {http://arxiv.org/abs/1807.09737},
  month_numeric = {7}
}