Add to ORKGThis paper considers importance sampling as a tool for rare-event simulation. The system at hand is a so-called tandem queue with slow-down, which essentially means that the server of the first queue (or: upstream queue) switches to a lower speed when the second queue (downstream queue) exceeds some threshold. The goal is to assess to what extent such a policy succeeds in protecting the first queue, and therefore we focus on estimating the probability of overflow in the downstream queue. It is known that in this setting importance sampling with traditional state-independent distributions performs poorly. More sophisticated state-dependent schemes can be shown to be asymptotically efficient, but their implementation may be problematic, as fo...
Tandem Jackson networks, and more sophisticated variants, have found widespread appli-cation in vari...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
Efficient Simulation of a Tandem Queue with Tandem Jackson networks and more sophisticated variants ...
Tandem Jackson networks and more sophisticated variants have found widespread application in various...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
Tandem Jackson networks, and more sophisticated variants, have found widespread appli-cation in vari...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
In this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
Efficient Simulation of a Tandem Queue with Tandem Jackson networks and more sophisticated variants ...
Tandem Jackson networks and more sophisticated variants have found widespread application in various...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
Tandem Jackson networks, and more sophisticated variants, have found widespread appli-cation in vari...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...