Stiff stochastic differential equations arise in many applications including in the area of biology. In this paper, we present numerical solution of stochastic differential equations representing the Malthus population model and SIS epidemic model, using the improved implicit Milstein method of order one proposed in [6]. The open source programming language SCILAB is used to perform the numerical simulations. Results show that the method is more accurate and stable compared to the implicit Euler method
In order to simulate stiff biochemical reaction systems, an explicit exponential Euler scheme is der...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...
Stiff stochastic differential equations arise in many applications including in the area of biology....
Abstract. In this paper we discuss Milstein type methods with implicitness for solving Itô stochasti...
In this paper a family of fully implicit Milstein methods are introduced for solving stiff stochasti...
A fully implicit integration method for stochastic differential equations with significant multipl...
Numerical methods for stochastic differential equations, including Taylor expansion approximations, ...
Often when solving stochastic differential equations numerically, many simulations must be generated...
Ordinary differential equations (ODEs) have been widely used to model the dynamical behaviour of bio...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
Multiscale differential equations arise in the modeling of many important problems in the science an...
AbstractStochastic differential equations (SDEs) arise from physical systems where the parameters de...
In this paper we discuss implicit Taylor methods for stiff Ito stochastic differential equations. Ba...
Abstract. In this paper, we present a class of explicit numerical methods for stiff Ito ̂ stochastic...
In order to simulate stiff biochemical reaction systems, an explicit exponential Euler scheme is der...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...
Stiff stochastic differential equations arise in many applications including in the area of biology....
Abstract. In this paper we discuss Milstein type methods with implicitness for solving Itô stochasti...
In this paper a family of fully implicit Milstein methods are introduced for solving stiff stochasti...
A fully implicit integration method for stochastic differential equations with significant multipl...
Numerical methods for stochastic differential equations, including Taylor expansion approximations, ...
Often when solving stochastic differential equations numerically, many simulations must be generated...
Ordinary differential equations (ODEs) have been widely used to model the dynamical behaviour of bio...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
Multiscale differential equations arise in the modeling of many important problems in the science an...
AbstractStochastic differential equations (SDEs) arise from physical systems where the parameters de...
In this paper we discuss implicit Taylor methods for stiff Ito stochastic differential equations. Ba...
Abstract. In this paper, we present a class of explicit numerical methods for stiff Ito ̂ stochastic...
In order to simulate stiff biochemical reaction systems, an explicit exponential Euler scheme is der...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...
This paper gives a review of recent progress in the design of numerical methods for computing the tr...