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Bayesian inference for diffusion processes: Using higher-order approximations for transition densities.
R. Soc. Open Sci. 7:200270 (2020)
Modelling random dynamical systems in continuous time, diffusion processes are a powerful tool in many areas of science. Model parameters can be estimated from time-discretely observed processes using Markov chain Monte Carlo (MCMC) methods that introduce auxiliary data. These methods typically approximate the transition densities of the process numerically, both for calculating the posterior densities and proposing auxiliary data. Here, the Euler-Maruyama scheme is the standard approximation technique. However, the MCMC method is computationally expensive. Using higher-order approximations may accelerate it, but the specific implementation and benefit remain unclear. Hence, we investigate the utilization and usefulness of higher-order approximations in the example of the Milstein scheme. Our study demonstrates that the MCMC methods based on the Milstein approximation yield good estimation results. However, they are computationally more expensive and can be applied to multidimensional processes only with impractical restrictions. Moreover, the combination of the Milstein approximation and the well-known modified bridge proposal introduces additional numerical challenges.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Bayesian Data Imputation ; Markov Chain Monte Carlo ; Milstein Scheme ; Parameter Estimation ; Stochastic Differential Equations
Language
english
Publication Year
2020
HGF-reported in Year
2020
ISSN (print) / ISBN
2054-5703
e-ISSN
2054-5703
Journal
Royal Society Open Science
Quellenangaben
Volume: 7,
Issue: 10,
Article Number: 200270
Publisher
Royal Society of London
Reviewing status
Peer reviewed
Institute(s)
Institute of Computational Biology (ICB)
POF-Topic(s)
30205 - Bioengineering and Digital Health
Research field(s)
Enabling and Novel Technologies
PSP Element(s)
G-503800-001
Grants
Bundesministerium für Bildung und Forschung
Deutsche Forschungsgemeinschaft
Deutsche Forschungsgemeinschaft
Scopus ID
85096289842
WOS ID
WOS:000582229900001
Erfassungsdatum
2020-11-27