Mikko S. Pakkanen scite author profile

We introduce a simulation scheme for Brownian semistationary processes, which is based on discretizing the stochastic integral representation of the process in the time domain. We assume that the kernel function of the process is regularly varying at zero. The novel feature of the scheme is to approximate the kernel function by a power function near zero and by a step function elsewhere. The resulting approximation of the process is a combination of Wiener integrals of the power function and a Riemann sum, which is why we call this method a hybrid scheme. Our main theoretical result describes the asymptotics of the mean square error of the hybrid scheme, and we observe that the scheme leads to a substantial improvement of accuracy compared to the ordinary forward Riemann-sum scheme, while having the same computational complexity. We exemplify the use of the hybrid scheme by two numerical experiments, where we examine the finite-sample properties of an estimator of the roughness parameter of a Brownian semistationary process and study Monte Carlo option pricing in the rough Bergomi model of Bayer et al. (Quant. Finance 16:887-904, 2016), respectively. B M.S. Pakkanen

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Asymptotic theory for Brownian semi-stationary processes with application to turbulence

Corcuera

Hedevang

Pakkanen

et al. 2013

Stochastic Processes and their Applications

131

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This paper presents some asymptotic results for statistics of Brownian semi-stationary (BSS) processes. More precisely, we consider power variations of BSS processes, which are based on high frequency (possibly higher order) differences of the BSS model. We review the limit theory discussed in [4,5] and present some new connections to fractional diffusion models. We apply our probabilistic results to construct a family of estimators for the smoothness parameter of the BSS process. In this context we develop estimates with gaps, which allow to obtain a valid central limit theorem for the critical region. Finally, we apply our statistical theory to turbulence data.Keywords: Brownian semi-stationary processes, high frequency data, limit theorems, stable convergence, turbulence.AMS 2010 subject classifications. Primary 60F05, 60F15, 60F17; Secondary 60G48, 60H05. t −∞ g(t − s)σ s W (ds) + t −∞ q(t − s)a s ds

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Decoupling the Short- and Long-Term Behavior of Stochastic Volatility

2016

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Turbocharging Monte Carlo pricing for the rough Bergomi model

McCrickerd

Pakkanen

2018

Quantitative Finance

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The rough Bergomi model, introduced by Bayer, Friz and Gatheral (2016), is one of the recent rough volatility models that are consistent with the stylised fact of implied volatility surfaces being essentially time-invariant, and are able to capture the term structure of skew observed in equity markets. In the absence of analytical European option pricing methods for the model, we focus on reducing the runtime-adjusted variance of Monte Carlo implied volatilities, thereby contributing to the model's calibration by simulation. We employ a novel composition of variance reduction methods, immediately applicable to any conditionally log-normal stochastic volatility model. Assuming one targets implied volatility estimates with a given degree of confidence, thus calibration RMSE, the results we demonstrate equate to significant runtime reductions-roughly 20 times on average, across different correlation regimes.

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Mikko S. Pakkanen

Hybrid scheme for Brownian semistationary processes

Asymptotic theory for Brownian semi-stationary processes with application to turbulence

Decoupling the Short- and Long-Term Behavior of Stochastic Volatility

Turbocharging Monte Carlo pricing for the rough Bergomi model

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