Nonparametric Bayesian Volatility Estimation

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

doi:10.1007/978-3-030-04161-8_19

Nonparametric Bayesian Volatility Estimation

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

Statistics

Research output: Chapter in Book/Conference proceedings/Edited volume › Chapter › Scientific

Abstract

Given discrete time observations over a fixed time interval, we study a nonparametric Bayesian approach to estimation of the volatility coefficient of a stochastic differential equation. We postulate a histogram-type prior on the volatility with piecewise constant realisations on bins forming a partition of the time interval. The values on the bins are assigned an inverse Gamma Markov chain (IGMC) prior. Posterior inference is straightforward to implement via Gibbs sampling, as the full conditional distributions are available explicitly and turn out to be inverse Gamma. We also discuss in detail the hyperparameter selection for our method. Our nonparametric Bayesian approach leads to good practical results in representative simulation examples. Finally, we apply it on a classical data set in change-point analysis: weekly closings of the Dow-Jones industrial averages.

Original language	English
Title of host publication	2017 MATRIX Annals
Editors	D. Wood, J. de Gier, C. Praeger, T. Tao
Place of Publication	Cham
Publisher	Springer
Pages	279-302
Number of pages	24
ISBN (Electronic)	978-3-030-04161-8
ISBN (Print)	978-3-030-04160-1
DOIs	https://doi.org/10.1007/978-3-030-04161-8_19
Publication status	Published - 2019

Publication series

Name	MATRIX Book Series book series
Volume	2

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10.1007/978-3-030-04161-8_19

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title = "Nonparametric Bayesian Volatility Estimation",

abstract = "Given discrete time observations over a fixed time interval, we study a nonparametric Bayesian approach to estimation of the volatility coefficient of a stochastic differential equation. We postulate a histogram-type prior on the volatility with piecewise constant realisations on bins forming a partition of the time interval. The values on the bins are assigned an inverse Gamma Markov chain (IGMC) prior. Posterior inference is straightforward to implement via Gibbs sampling, as the full conditional distributions are available explicitly and turn out to be inverse Gamma. We also discuss in detail the hyperparameter selection for our method. Our nonparametric Bayesian approach leads to good practical results in representative simulation examples. Finally, we apply it on a classical data set in change-point analysis: weekly closings of the Dow-Jones industrial averages.",

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T1 - Nonparametric Bayesian Volatility Estimation

AU - Gugushvili, Shota

AU - van der Meulen, Frank

AU - Schauer, Moritz

AU - Spreij, Peter

PY - 2019

Y1 - 2019

N2 - Given discrete time observations over a fixed time interval, we study a nonparametric Bayesian approach to estimation of the volatility coefficient of a stochastic differential equation. We postulate a histogram-type prior on the volatility with piecewise constant realisations on bins forming a partition of the time interval. The values on the bins are assigned an inverse Gamma Markov chain (IGMC) prior. Posterior inference is straightforward to implement via Gibbs sampling, as the full conditional distributions are available explicitly and turn out to be inverse Gamma. We also discuss in detail the hyperparameter selection for our method. Our nonparametric Bayesian approach leads to good practical results in representative simulation examples. Finally, we apply it on a classical data set in change-point analysis: weekly closings of the Dow-Jones industrial averages.

AB - Given discrete time observations over a fixed time interval, we study a nonparametric Bayesian approach to estimation of the volatility coefficient of a stochastic differential equation. We postulate a histogram-type prior on the volatility with piecewise constant realisations on bins forming a partition of the time interval. The values on the bins are assigned an inverse Gamma Markov chain (IGMC) prior. Posterior inference is straightforward to implement via Gibbs sampling, as the full conditional distributions are available explicitly and turn out to be inverse Gamma. We also discuss in detail the hyperparameter selection for our method. Our nonparametric Bayesian approach leads to good practical results in representative simulation examples. Finally, we apply it on a classical data set in change-point analysis: weekly closings of the Dow-Jones industrial averages.

U2 - 10.1007/978-3-030-04161-8_19

DO - 10.1007/978-3-030-04161-8_19

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SN - 978-3-030-04160-1

T3 - MATRIX Book Series book series

SP - 279

EP - 302

BT - 2017 MATRIX Annals

A2 - Wood, D.

A2 - de Gier, J.

A2 - Praeger, C.

A2 - Tao, T.

PB - Springer

CY - Cham

ER -

Nonparametric Bayesian Volatility Estimation

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