This article focuses on evaluating the probability that both components of a two-dimensional stochastic process will ever, but not necessarily at the same time, exceed some large level u. An important application is in determining the probability of large delays occurring in two correlated queues. Since exact analysis of this probability seems prohibitive, we focus on deriving asymptotics and on developing efficient simulations techniques. Large deviations theory is used to characterise logarithmic asymptotics. The second part of this article focuses on efficient simulation techniques. Using “nearest-neighbour random walk” as an example, we first show that a “naive” implementation of importance sampling, based on the decay rate, is not asym...
We consider a queue fed by a large number, say $n$, of on-off sources with generally distributed on-...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
This paper considers Gaussian flows multiplexed in a queueing network. A single node being a useful ...
This article focuses on evaluating the probability that both components of a two-dimensional stochas...
This article considers importance sampling as a tool for rare-event simulation. The focus is on esti...
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...
We consider a queue fed by a large number, say n, of on-off sources with generally distributed on-an...
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 a two-node tandem queue where the cumulative input traffic is modeled as a Gaus...
Efficient estimation of tail probabilities involving heavy tailed random variables is amongst the mo...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
We consider a queue fed by a large number, say $n$, of on-off sources with generally distributed on-...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
This paper considers Gaussian flows multiplexed in a queueing network. A single node being a useful ...
This article focuses on evaluating the probability that both components of a two-dimensional stochas...
This article considers importance sampling as a tool for rare-event simulation. The focus is on esti...
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...
We consider a queue fed by a large number, say n, of on-off sources with generally distributed on-an...
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 a two-node tandem queue where the cumulative input traffic is modeled as a Gaus...
Efficient estimation of tail probabilities involving heavy tailed random variables is amongst the mo...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
We consider a queue fed by a large number, say $n$, of on-off sources with generally distributed on-...
This paper considers importance sampling as a tool for rare-event simulation. The system at hand is ...
This paper considers Gaussian flows multiplexed in a queueing network. A single node being a useful ...