Numerical methods for the Lévy LIBOR model

Antonis Papapantoleon; David Skovmand

Numerical methods for the Lévy LIBOR model

Antonis Papapantoleon, David Skovmand

Institut for Matematiske Fag

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

232 Downloads (Pure)

Abstract

The aim of this work is to provide fast and accurate approximation schemes for the Monte-Carlo pricing of derivatives in the L\'evy LIBOR model of Eberlein and \"Ozkan (2005). Standard methods can be applied to solve the stochastic differential equations of the successive LIBOR rates but the methods are generally slow. We propose an alternative approximation scheme based on Picard iterations. Our approach is similar in accuracy to the full numerical solution, but with the feature that each rate is, unlike the standard method, evolved independently of the other rates in the term structure. This enables simultaneous calculation of derivative prices of different maturities using parallel computing. We include numerical illustrations of the accuracy and speed of our method pricing caplets.

Originalsprog	Engelsk
Tidsskrift	In M.R. Guarracino et al.
Status	Udgivet - 16 jun. 2010

Bibliografisk note

10 pages, submitted to the Proceedings of the Conference on High-performance computing applied to Finance. A longer paper with full details will follow soon

Emneord

q-fin.CP
math.NA

Adgang til dokumentet

1006.3340v1

Citationsformater

@article{a4b40e7ac36c487991b53f31b21d9153,

title = "Numerical methods for the L{\'e}vy LIBOR model",

abstract = "The aim of this work is to provide fast and accurate approximation schemes for the Monte-Carlo pricing of derivatives in the L\'evy LIBOR model of Eberlein and \{"}Ozkan (2005). Standard methods can be applied to solve the stochastic differential equations of the successive LIBOR rates but the methods are generally slow. We propose an alternative approximation scheme based on Picard iterations. Our approach is similar in accuracy to the full numerical solution, but with the feature that each rate is, unlike the standard method, evolved independently of the other rates in the term structure. This enables simultaneous calculation of derivative prices of different maturities using parallel computing. We include numerical illustrations of the accuracy and speed of our method pricing caplets.",

keywords = "q-fin.CP, math.NA",

author = "Antonis Papapantoleon and David Skovmand",

note = "10 pages, submitted to the Proceedings of the Conference on High-performance computing applied to Finance. A longer paper with full details will follow soon",

year = "2010",

month = jun,

day = "16",

language = "English",

journal = "In M.R. Guarracino et al.",

}

TY - JOUR

T1 - Numerical methods for the Lévy LIBOR model

AU - Papapantoleon, Antonis

AU - Skovmand, David

N1 - 10 pages, submitted to the Proceedings of the Conference on High-performance computing applied to Finance. A longer paper with full details will follow soon

PY - 2010/6/16

Y1 - 2010/6/16

N2 - The aim of this work is to provide fast and accurate approximation schemes for the Monte-Carlo pricing of derivatives in the L\'evy LIBOR model of Eberlein and \"Ozkan (2005). Standard methods can be applied to solve the stochastic differential equations of the successive LIBOR rates but the methods are generally slow. We propose an alternative approximation scheme based on Picard iterations. Our approach is similar in accuracy to the full numerical solution, but with the feature that each rate is, unlike the standard method, evolved independently of the other rates in the term structure. This enables simultaneous calculation of derivative prices of different maturities using parallel computing. We include numerical illustrations of the accuracy and speed of our method pricing caplets.

AB - The aim of this work is to provide fast and accurate approximation schemes for the Monte-Carlo pricing of derivatives in the L\'evy LIBOR model of Eberlein and \"Ozkan (2005). Standard methods can be applied to solve the stochastic differential equations of the successive LIBOR rates but the methods are generally slow. We propose an alternative approximation scheme based on Picard iterations. Our approach is similar in accuracy to the full numerical solution, but with the feature that each rate is, unlike the standard method, evolved independently of the other rates in the term structure. This enables simultaneous calculation of derivative prices of different maturities using parallel computing. We include numerical illustrations of the accuracy and speed of our method pricing caplets.

KW - q-fin.CP

KW - math.NA

M3 - Journal article

JO - In M.R. Guarracino et al.

JF - In M.R. Guarracino et al.

ER -