Two-Dimensional Fourier Cosine Series Expansion Method for Pricing Financial Options

Ruijter, Marjon; Oosterlee, Cornelis W.

doi:10.1137/120862053

Cited by 114 publications

(93 citation statements)

References 23 publications

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“…We consider the case of a Bermudan option on the arithmetic mean of five assets, where the asset prices follow the dynamics given by Equation (20).…”

Section: Arithmetic Basket Optionmentioning

confidence: 99%

“…We consider the case where the asset prices follow correlated geometric Brownian motion processes, as given by Equation (20).…”

Section: Max Optionmentioning

confidence: 99%

“…compute the exact Greeks using the 2D COS method of Ruijter and Oosterlee (2012) [20]. Figures 9(a) and (b) compare the exact Greeks computed using the 2D COS method with results from SGBM for different numbers of exercise opportunities.…”

Section: Computing Greeksmentioning

confidence: 99%

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The Stochastic Grid Bundling Method: Efficient pricing of Bermudan options and their Greeks

Jain

Oosterlee

2015

Applied Mathematics and Computation

110

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This paper describes a practical simulation-based algorithm, which we call the Stochastic Grid Bundling Method (SGBM) for pricing multidimensional Bermudan (i.e. discretely exercisable) options. The method generates a direct estimator of the option price, an optimal early-exercise policy as well as a lower bound value for the option price. An advantage of SGBM is that the method can be used for fast approximation of the Greeks (i.e., derivatives with respect to the underlying spot prices, such as delta, gamma, etc) for Bermudan-style options. Computational results for various multi-dimensional Bermudan options demonstrate the simplicity and efficiency of the algorithm proposed.

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“…We consider the case of a Bermudan option on the arithmetic mean of five assets, where the asset prices follow the dynamics given by Equation (20).…”

Section: Arithmetic Basket Optionmentioning

confidence: 99%

“…We consider the case where the asset prices follow correlated geometric Brownian motion processes, as given by Equation (20).…”

Section: Max Optionmentioning

confidence: 99%

See 1 more Smart Citation

The Stochastic Grid Bundling Method: Efficient pricing of Bermudan options and their Greeks

Jain

Oosterlee

2015

Applied Mathematics and Computation

110

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“…To eliminate randomness, each code was run 10 times, then the two longest and the two shortest times were removed and the mean over the remaining six times was measured. [12] in the single-asset case, and the COS method [16] in the double-asset case. For the RBF-PUM experiments we select the multiquadric basis function φ = √ 1 + ε 2 r 2 .…”

Section: Numerical Experimentsmentioning

confidence: 99%

“…For the two-dimensional experiments we keep only one version of the penalty method-the implicit version-because it performed better for the one-dimensional problem. In Table 4, we can see the reference option values obtained by the COS method [16] (based on a cosine expansion) and the relative difference (V −V r )/V r between the approximated values and the reference values, together with the "minimal" grid sizes, which allow for getting the error down to 10 −4 at the three specified points, and the execution times in seconds. In this test, the advantage of the operator splitting method over the penalty method becomes even more evident.…”

Section: The Double-asset Casementioning

confidence: 99%

Radial basis function partition of unity operator splitting method for pricing multi-asset American options

Shcherbakov

2016

Bit Numer Math

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PostprintThis is the accepted version of a paper published in BIT Numerical Mathematics. This paper has been peer-reviewed but does not include the final publisher proof-corrections or journal pagination. AbstractThe operator splitting method in combination with finite differences has been shown to be an efficient approach for pricing American options numerically. Here, the operator splitting formulation is extended to the radial basis function partition of unity method. An approach that has previously often been used together with radial basis function methods to deal with the free boundary arising in American option pricing is to solve a penalised version of the Black-Scholes equation. It is shown that the operator splitting technique outperforms the penalty approach when used with the radial basis function partition of unity method. Numerical experiments are performed for one, two and three underlying assets. The advantage of the operator splitting technique grows with the number of dimensions.

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Heterogeneous Computation of Rainbow Option Prices Using Fourier Cosine Series Expansion Under a Mixed Cpu-Gpu Computation Framework

Cassagnes

Chen

Ohashi

2014

Intell. Sys. Acc. Fin. Mgmt.

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SUMMARYThis paper focuses on comparing different heterogeneous computational designs for the calculation of rainbow options prices using the Fourier‐cosine series expansion (COS) method. We also propose a simple enough way to automatically decide the ratio of load balancing at runtime. A general‐purpose computing on graphic processing unit implementation of the two‐dimensional composite Simpson rule free of conditional statements with some degree of loop unrolling is also introduced. We will also show how to reduce the integration domain of coefficients appearing in the option pricing and by doing so achieve a substantial speed‐up and improve accuracy when compared with a straightforward implementation. Copyright © 2014 John Wiley & Sons, Ltd.

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Two-Dimensional Fourier Cosine Series Expansion Method for Pricing Financial Options

Cited by 114 publications

References 23 publications

The Stochastic Grid Bundling Method: Efficient pricing of Bermudan options and their Greeks

The Stochastic Grid Bundling Method: Efficient pricing of Bermudan options and their Greeks

Radial basis function partition of unity operator splitting method for pricing multi-asset American options

Heterogeneous Computation of Rainbow Option Prices Using Fourier Cosine Series Expansion Under a Mixed Cpu-Gpu Computation Framework

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