Add to ORKGIn this paper we investigate an advanced variant of the classical (Jackson) tandem queue, viz. a two-node system with server slow-down. The slow-down mechanism has the primary objective to protect the downstream queue from frequent overflows, and it does so by reducing the service speed of the upstream queue as soon as the number of jobs in the downstream queue reaches some pre-specified threshold. To assess the efficacy of such a policy, techniques are needed for evaluating overflow metrics of the second queue. We focus on the estimation of the probability of the following rare event: overflow in the downstream queue before exhausting the system, starting from any given state in the state space. Due to the rarity of the event under conside...
This paper considers importance sampling as a tool for rare-event simulation. The focus is on estima...
htmlabstractThis paper focuses on estimating the rare event of overflow in the downstream queue of a...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
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 considers importance sampling as a tool for rare-event simulation. The system at hand is ...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
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 application in vario...
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...
htmlabstractThis paper focuses on estimating the rare event of overflow in the downstream queue of a...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...
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 considers importance sampling as a tool for rare-event simulation. The system at hand is ...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
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 application in vario...
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...
htmlabstractThis paper focuses on estimating the rare event of overflow in the downstream queue of a...
This paper focuses on estimating the rare event of overflow in the downstream queue of a tandem Jack...