We investigate simulation methodology for Bayesian inference in Lévy-driven stochastic volatility (SV) models. Typically, Bayesian inference from such models is performed using Markov chain Monte Carlo (MCMC); this is often a challenging task. Sequential Monte Carlo (SMC) samplers are methods that can improve over MCMC; however, there are many user-set parameters to specify. We develop a fully automated SMC algorithm, which substantially improves over the standard MCMC methods in the literature. To illustrate our methodology, we look at a model comprised of a Heston model with an independent, additive, variance gamma process in the returns equation. The driving gamma process can capture the stylized behaviour of many financial time series a...
none2In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility...
Bayesian inference is developed and applied for an extended Nelson–Siegel term structure model captu...
In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility mode...
We investigate simulation methodology for Bayesian inference in Lévy-driven stochastic volatility (S...
Abstract: In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volat...
The hybrid Monte Carlo (HMC) algorithm is applied for the Bayesian inference of the stochastic volat...
An efficient method for Bayesian inference in stochastic volatility models uses a linear state space...
This article designs a Sequential Monte Carlo (SMC) algorithm for estimation of Bayesian semi-parame...
In this paper, we introduce efficient ensemble Markov Chain Monte Carlo (MCMC) sampling methods for ...
Stochastic volatility models are important tools for studying the behavior of many financial markets...
This paper is concerned with simulation-based inference in generalized models of stochastic volatili...
none2In this article we propose a Monte Carlo algorithm for sequential parameter learning for a stoc...
Stochastic volatility models are important tools for studying the behavior of many financial markets...
In this paper we exploit some recent computational advances in Bayesian inference, coupled with data...
Modelling of the fi nancial variable evolution represents an important issue in financial econometri...
none2In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility...
Bayesian inference is developed and applied for an extended Nelson–Siegel term structure model captu...
In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility mode...
We investigate simulation methodology for Bayesian inference in Lévy-driven stochastic volatility (S...
Abstract: In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volat...
The hybrid Monte Carlo (HMC) algorithm is applied for the Bayesian inference of the stochastic volat...
An efficient method for Bayesian inference in stochastic volatility models uses a linear state space...
This article designs a Sequential Monte Carlo (SMC) algorithm for estimation of Bayesian semi-parame...
In this paper, we introduce efficient ensemble Markov Chain Monte Carlo (MCMC) sampling methods for ...
Stochastic volatility models are important tools for studying the behavior of many financial markets...
This paper is concerned with simulation-based inference in generalized models of stochastic volatili...
none2In this article we propose a Monte Carlo algorithm for sequential parameter learning for a stoc...
Stochastic volatility models are important tools for studying the behavior of many financial markets...
In this paper we exploit some recent computational advances in Bayesian inference, coupled with data...
Modelling of the fi nancial variable evolution represents an important issue in financial econometri...
none2In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility...
Bayesian inference is developed and applied for an extended Nelson–Siegel term structure model captu...
In this paper we propose a sequential Monte Carlo algorithm to estimate a stochastic volatility mode...