This paper addresses the problem of computing end-to-end delay bounds for a traffic flow traversing a tandem of FIFO multiplexing network nodes using Network Calculus. Numerical solution methods are required, as closed-form delay bound expressions are unknown except for few specific cases. For the methodology called the Least Upper Delay Bound, the most accurate among those based on Network Calculus, exact and approximate solution algorithms are presented, and their accuracy and computation cost are discussed. The algorithms are inherently exponential, yet affordable for tandems of up to few tens of nodes, and amenable to online execution in cases of practical significance. This complexity is, however, required to compute accurate bounds. A...
Network Calculus theory aims at evaluating worst-case performances in communication networks. It pro...
International audienceWe consider the problem of dimensioning realtime AFDX FIFO networks with a wor...
International audienceIn this chapter we show how to derive performance bounds for tandem queueing s...
We address the problem of computing bounds on the worst-case end-to-end delay for a flow traversing ...
This paper addresses the problem of estimating the worst-case end-to-end delay for a flow in a tande...
In this paper we address the problem of finding end-to-end delay bounds for single leaky-bucket shap...
Part of the content of this report has appeared as [1] and [2]. This paper addresses the problem of ...
In this paper we address the problem of finding good end-to-end delay bounds for single leaky-bucket...
Recent results on Network Calculus applied to FIFO networks show that, in the general case, end-to-e...
This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO multiplexi...
Abstract—This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO m...
Abstract—Network calculus has proven as a valuable and versatile methodology for worst-case analysis...
International audienceIn this paper we compute the actual worst-case end-to-end delay for a flow in ...
In this paper, we compute the actual worst-case end-to-end delay for a flow in a feed-forward networ...
The goal of this paper is to examine the gains of partial upgrades to existing FIFO networks, to sup...
Network Calculus theory aims at evaluating worst-case performances in communication networks. It pro...
International audienceWe consider the problem of dimensioning realtime AFDX FIFO networks with a wor...
International audienceIn this chapter we show how to derive performance bounds for tandem queueing s...
We address the problem of computing bounds on the worst-case end-to-end delay for a flow traversing ...
This paper addresses the problem of estimating the worst-case end-to-end delay for a flow in a tande...
In this paper we address the problem of finding end-to-end delay bounds for single leaky-bucket shap...
Part of the content of this report has appeared as [1] and [2]. This paper addresses the problem of ...
In this paper we address the problem of finding good end-to-end delay bounds for single leaky-bucket...
Recent results on Network Calculus applied to FIFO networks show that, in the general case, end-to-e...
This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO multiplexi...
Abstract—This paper computes the actual worst-case end-to-end delay for a flow in a tandem of FIFO m...
Abstract—Network calculus has proven as a valuable and versatile methodology for worst-case analysis...
International audienceIn this paper we compute the actual worst-case end-to-end delay for a flow in ...
In this paper, we compute the actual worst-case end-to-end delay for a flow in a feed-forward networ...
The goal of this paper is to examine the gains of partial upgrades to existing FIFO networks, to sup...
Network Calculus theory aims at evaluating worst-case performances in communication networks. It pro...
International audienceWe consider the problem of dimensioning realtime AFDX FIFO networks with a wor...
International audienceIn this chapter we show how to derive performance bounds for tandem queueing s...