Stochastic differential equations with Poisson driven jumps of random magnitude are popular as models in mathematical finance. Strong, or pathwise, simulation of these models is required in various settings and long time stability is desirable to control error growth. Here, we examine strong convergence and mean-square stability of a class of implicit numerical methods, proving both positive and negative results. The analysis is backed up with numerical experiments
This paper is devoted to investigate the mean-square stability of explicit and semi-implicit derivat...
This paper is dedicated to academic fairness and honesty. Abstract. Several convergence and stabilit...
Abstract. In financial modelling, filtering and other areas the underlying dynamics are often specif...
Stochastic differential equations with Poisson driven jumps of random magnitude are popular as model...
Implicit numerical methods such as the stochastic theta-method offer a practical way to approximate ...
We present and analyse two implicit methods for Ito stochastic differential equations (SDEs) with Po...
AbstractWe are interested in the strong convergence and almost sure stability of Euler–Maruyama (EM)...
We are interested in the strong convergence and almost sure stability of Euler-Maruyama (EM) type ap...
AbstractThis paper considers numerical stability and convergence of weak schemes solving stochastic ...
This paper considers numerical stability and convergence of weak schemes solving stochastic differen...
Abstract. In this paper we present a result on convergence of approximate solutions of stochastic di...
In this paper we present a result on convergence of approximate solutions of stochastic differential...
AbstractConvergence in law of solutions of SDE having jumps is discussed assuming suitable convergen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
This paper is devoted to investigate the mean-square stability of explicit and semi-implicit derivat...
This paper is dedicated to academic fairness and honesty. Abstract. Several convergence and stabilit...
Abstract. In financial modelling, filtering and other areas the underlying dynamics are often specif...
Stochastic differential equations with Poisson driven jumps of random magnitude are popular as model...
Implicit numerical methods such as the stochastic theta-method offer a practical way to approximate ...
We present and analyse two implicit methods for Ito stochastic differential equations (SDEs) with Po...
AbstractWe are interested in the strong convergence and almost sure stability of Euler–Maruyama (EM)...
We are interested in the strong convergence and almost sure stability of Euler-Maruyama (EM) type ap...
AbstractThis paper considers numerical stability and convergence of weak schemes solving stochastic ...
This paper considers numerical stability and convergence of weak schemes solving stochastic differen...
Abstract. In this paper we present a result on convergence of approximate solutions of stochastic di...
In this paper we present a result on convergence of approximate solutions of stochastic differential...
AbstractConvergence in law of solutions of SDE having jumps is discussed assuming suitable convergen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
This paper is devoted to investigate the mean-square stability of explicit and semi-implicit derivat...
This paper is dedicated to academic fairness and honesty. Abstract. Several convergence and stabilit...
Abstract. In financial modelling, filtering and other areas the underlying dynamics are often specif...