Add to ORKGThis paper compares the performance of three methods for pricing vanilla options in models with known characteristic function: (1) Direct integration, (2) Fast Fourier Transform (FFT), (3) Fractional FFT. The most important application of this comparison is the choice of the fastest method for the calibration of stochastic volatility models, e.g. Heston, Bates, Barndor®-Nielsen-Shephard models or Levy models with stochastic time. We show that using additional cache technique makes the calibration with the direct integration method at least seven times faster than the calibration with the fractional FFT method
AbstractData for calibration and out-of-sample error testing of option pricing models are provided a...
Sparked by Alòs, León und Vives (2007); Fukasawa (2011, 2017); Gatheral, Jaisson und Rosenbaum (2018...
The stochastic volatility model of Heston (Rev Financ Stud 6:327–343,1993) has been accepted by many...
This paper compares the performance of three methods for pricing vanilla options in models with know...
This paper compares the performance of three methods for pricing vanilla options in models with know...
This paper compares the performance of three methods for pricing vanilla options in models with know...
In this thesis, stochastic volatility models with Levy processes are treated in parameter calibrati...
This paper presents an algorithm for a complete and efficient calibration of the Heston stochastic v...
In this paper, we propose a new random volatility model, where the volatility has a deterministic te...
Spread options are notoriously difficult to price without the use of Monte Carlo simulation. Some s...
Many numerical aspects are involved in parameter estimation of stochastic volatility models. We inve...
The aim of this thesis is to develop efficient valuation methods for nancial contracts under model...
We present an acceleration technique, effective for explicit finite difference schemes describing d...
This dissertation is devoted to high performance numerical methods for option valuation and model ca...
In this thesis, stochastic volatility models with Lévy processes are treated in parameter calibrati...
AbstractData for calibration and out-of-sample error testing of option pricing models are provided a...
Sparked by Alòs, León und Vives (2007); Fukasawa (2011, 2017); Gatheral, Jaisson und Rosenbaum (2018...
The stochastic volatility model of Heston (Rev Financ Stud 6:327–343,1993) has been accepted by many...
This paper compares the performance of three methods for pricing vanilla options in models with know...
This paper compares the performance of three methods for pricing vanilla options in models with know...
This paper compares the performance of three methods for pricing vanilla options in models with know...
In this thesis, stochastic volatility models with Levy processes are treated in parameter calibrati...
This paper presents an algorithm for a complete and efficient calibration of the Heston stochastic v...
In this paper, we propose a new random volatility model, where the volatility has a deterministic te...
Spread options are notoriously difficult to price without the use of Monte Carlo simulation. Some s...
Many numerical aspects are involved in parameter estimation of stochastic volatility models. We inve...
The aim of this thesis is to develop efficient valuation methods for nancial contracts under model...
We present an acceleration technique, effective for explicit finite difference schemes describing d...
This dissertation is devoted to high performance numerical methods for option valuation and model ca...
In this thesis, stochastic volatility models with Lévy processes are treated in parameter calibrati...
AbstractData for calibration and out-of-sample error testing of option pricing models are provided a...
Sparked by Alòs, León und Vives (2007); Fukasawa (2011, 2017); Gatheral, Jaisson und Rosenbaum (2018...
The stochastic volatility model of Heston (Rev Financ Stud 6:327–343,1993) has been accepted by many...