Nonparametric Bayesian volatility learning under microstructure noise

Shota Gugushvili; Frank van der Meulen; Moritz Schauer; Peter Spreij

doi:10.1007/s42081-022-00185-9

Nonparametric Bayesian volatility learning under microstructure noise

Shota Gugushvili, Frank van der Meulen^*, Moritz Schauer, Peter Spreij

^*Corresponding author for this work

Mathematical and Statistical Methods - Biometris

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

In this work, we study the problem of learning the volatility under market microstructure noise. Specifically, we consider noisy discrete time observations from a stochastic differential equation and develop a novel computational method to learn the diffusion coefficient of the equation. We take a nonparametric Bayesian approach, where we a priori model the volatility function as piecewise constant. Its prior is specified via the inverse Gamma Markov chain. Sampling from the posterior is accomplished by incorporating the Forward Filtering Backward Simulation algorithm in the Gibbs sampler. Good performance of the method is demonstrated on two representative synthetic data examples. We also apply the method on a EUR/USD exchange rate dataset. Finally we present a limit result on the prior distribution.

Original language	English
Pages (from-to)	551-571
Journal	Japanese Journal of Statistics and Data Science
Volume	6
Issue number	1
Early online date	8 Dec 2022
DOIs	https://doi.org/10.1007/s42081-022-00185-9
Publication status	Published - Jun 2023

Keywords

Forward Filtering Backward Simulation
Gibbs sampler
High frequency data
Inverse Gamma Markov chain
Microstructure noise
State-space model
Volatility

Access to Document

10.1007/s42081-022-00185-9

https://edepot.wur.nl/583730Licence: Taverne

1 Software

Julia code for nonparametric Bayesian volatility learning under microstructure noise
Gugushvili, S., van der Meulen, F., Schauer, M. & Spreij, P., 6 Jul 2022
Research output: Non-textual form › Software

Open Access

Cite this

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title = "Nonparametric Bayesian volatility learning under microstructure noise",

abstract = "In this work, we study the problem of learning the volatility under market microstructure noise. Specifically, we consider noisy discrete time observations from a stochastic differential equation and develop a novel computational method to learn the diffusion coefficient of the equation. We take a nonparametric Bayesian approach, where we a priori model the volatility function as piecewise constant. Its prior is specified via the inverse Gamma Markov chain. Sampling from the posterior is accomplished by incorporating the Forward Filtering Backward Simulation algorithm in the Gibbs sampler. Good performance of the method is demonstrated on two representative synthetic data examples. We also apply the method on a EUR/USD exchange rate dataset. Finally we present a limit result on the prior distribution.",

keywords = "Forward Filtering Backward Simulation, Gibbs sampler, High frequency data, Inverse Gamma Markov chain, Microstructure noise, State-space model, Volatility",

author = "Shota Gugushvili and {van der Meulen}, Frank and Moritz Schauer and Peter Spreij",

year = "2023",

month = jun,

doi = "10.1007/s42081-022-00185-9",

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journal = "Japanese Journal of Statistics and Data Science",

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T1 - Nonparametric Bayesian volatility learning under microstructure noise

AU - Gugushvili, Shota

AU - van der Meulen, Frank

AU - Schauer, Moritz

AU - Spreij, Peter

PY - 2023/6

Y1 - 2023/6

N2 - In this work, we study the problem of learning the volatility under market microstructure noise. Specifically, we consider noisy discrete time observations from a stochastic differential equation and develop a novel computational method to learn the diffusion coefficient of the equation. We take a nonparametric Bayesian approach, where we a priori model the volatility function as piecewise constant. Its prior is specified via the inverse Gamma Markov chain. Sampling from the posterior is accomplished by incorporating the Forward Filtering Backward Simulation algorithm in the Gibbs sampler. Good performance of the method is demonstrated on two representative synthetic data examples. We also apply the method on a EUR/USD exchange rate dataset. Finally we present a limit result on the prior distribution.

AB - In this work, we study the problem of learning the volatility under market microstructure noise. Specifically, we consider noisy discrete time observations from a stochastic differential equation and develop a novel computational method to learn the diffusion coefficient of the equation. We take a nonparametric Bayesian approach, where we a priori model the volatility function as piecewise constant. Its prior is specified via the inverse Gamma Markov chain. Sampling from the posterior is accomplished by incorporating the Forward Filtering Backward Simulation algorithm in the Gibbs sampler. Good performance of the method is demonstrated on two representative synthetic data examples. We also apply the method on a EUR/USD exchange rate dataset. Finally we present a limit result on the prior distribution.

KW - Forward Filtering Backward Simulation

KW - Gibbs sampler

KW - High frequency data

KW - Inverse Gamma Markov chain

KW - Microstructure noise

KW - State-space model

KW - Volatility

U2 - 10.1007/s42081-022-00185-9

DO - 10.1007/s42081-022-00185-9

M3 - Article

AN - SCOPUS:85143623760

SN - 2520-8756

VL - 6

SP - 551

EP - 571

JO - Japanese Journal of Statistics and Data Science

JF - Japanese Journal of Statistics and Data Science

IS - 1

ER -

Nonparametric Bayesian volatility learning under microstructure noise

Abstract

Keywords

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Research output

Julia code for nonparametric Bayesian volatility learning under microstructure noise

Cite this