Exact and high-order discretization schemes for wishart processes and their affine extensions

Abdelkoddousse Ahdida; Aurélien Alfonsi

doi:10.1214/12-AAP863

Exact and high-order discretization schemes for wishart processes and their affine extensions

Abdelkoddousse Ahdida
, Aurélien Alfonsi

École des ponts

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

Abstract

This work deals with the simulation of Wishart processes and affine diffusions on positive semidefinite matrices. To do so, we focus on the splitting of the infinitesimal generator in order to use composition techniques as did Ninomiya and Victoir [Appl. Math. Finance 15 (2008) 107-121] or Alfonsi [Math. Comp. 79 (2010) 209-237]. Doing so, we have found a remarkable splitting for Wishart processes that enables us to sample exactly Wishart distributions without any restriction on the parameters. It is related but extends existing exact simulation methods based on Bartlett's decomposition. Moreover, we can construct high-order discretization schemes for Wishart processes and second-order schemes for general affine diffusions. These schemes are, in practice, faster than the exact simulation to sample entire paths. Numerical results on their convergence are given.

Original language	English
Pages (from-to)	1025-1073
Number of pages	49
Journal	Annals of Applied Probability
Volume	23
Issue number	3
DOIs	https://doi.org/10.1214/12-AAP863
Publication status	Published - 1 Jun 2013

Keywords

Affine processes
Bartlett's decomposition
Discretization schemes
Exact simulation
Weak error
Wishart processes

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10.1214/12-AAP863

Cite this

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title = "Exact and high-order discretization schemes for wishart processes and their affine extensions",

abstract = "This work deals with the simulation of Wishart processes and affine diffusions on positive semidefinite matrices. To do so, we focus on the splitting of the infinitesimal generator in order to use composition techniques as did Ninomiya and Victoir [Appl. Math. Finance 15 (2008) 107-121] or Alfonsi [Math. Comp. 79 (2010) 209-237]. Doing so, we have found a remarkable splitting for Wishart processes that enables us to sample exactly Wishart distributions without any restriction on the parameters. It is related but extends existing exact simulation methods based on Bartlett's decomposition. Moreover, we can construct high-order discretization schemes for Wishart processes and second-order schemes for general affine diffusions. These schemes are, in practice, faster than the exact simulation to sample entire paths. Numerical results on their convergence are given.",

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AU - Ahdida, Abdelkoddousse

AU - Alfonsi, Aurélien

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N2 - This work deals with the simulation of Wishart processes and affine diffusions on positive semidefinite matrices. To do so, we focus on the splitting of the infinitesimal generator in order to use composition techniques as did Ninomiya and Victoir [Appl. Math. Finance 15 (2008) 107-121] or Alfonsi [Math. Comp. 79 (2010) 209-237]. Doing so, we have found a remarkable splitting for Wishart processes that enables us to sample exactly Wishart distributions without any restriction on the parameters. It is related but extends existing exact simulation methods based on Bartlett's decomposition. Moreover, we can construct high-order discretization schemes for Wishart processes and second-order schemes for general affine diffusions. These schemes are, in practice, faster than the exact simulation to sample entire paths. Numerical results on their convergence are given.

AB - This work deals with the simulation of Wishart processes and affine diffusions on positive semidefinite matrices. To do so, we focus on the splitting of the infinitesimal generator in order to use composition techniques as did Ninomiya and Victoir [Appl. Math. Finance 15 (2008) 107-121] or Alfonsi [Math. Comp. 79 (2010) 209-237]. Doing so, we have found a remarkable splitting for Wishart processes that enables us to sample exactly Wishart distributions without any restriction on the parameters. It is related but extends existing exact simulation methods based on Bartlett's decomposition. Moreover, we can construct high-order discretization schemes for Wishart processes and second-order schemes for general affine diffusions. These schemes are, in practice, faster than the exact simulation to sample entire paths. Numerical results on their convergence are given.

KW - Affine processes

KW - Bartlett's decomposition

KW - Discretization schemes

KW - Exact simulation

KW - Weak error

KW - Wishart processes

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DO - 10.1214/12-AAP863

M3 - Article

AN - SCOPUS:84875529938

SN - 1050-5164

VL - 23

SP - 1025

EP - 1073

JO - Annals of Applied Probability

JF - Annals of Applied Probability

IS - 3

ER -

Exact and high-order discretization schemes for wishart processes and their affine extensions

Abstract

Keywords

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