English

End-to-End Delay Approximation in Packet-Switched Networks

Networking and Internet Architecture 2021-03-23 v2 Probability

Abstract

In this paper, I develop a generalized method to approximate end-to-end delay (average delay, jitter and density functions) in packet-switched networks (PSNs) of any size under 1) Kleinrock's independence assumption (KIA) and 2) when packet lengths are kept unchanged when they traverse from node to node in a network, which is an Alternative to Kleinrock's independence assumption (AKIA). I introduce a new phase-type distribution C(p,θ)C(\mathbf{p},\boldsymbol \theta); and then use results from the network flow theory and queueing theory to show that the end-to-end delay in PSNs under KIA and AKIA are two different random variables approximately described by C(p,θ)C(\mathbf{p},\boldsymbol \theta). When PSNs have AKIA, I show from simulation that the method under AKIA significantly reduces end-to-end delay approximation errors and provides close approximation compared with the method under KIA.

Cite

@article{arxiv.2003.08780,
  title  = {End-to-End Delay Approximation in Packet-Switched Networks},
  author = {Yu Chen},
  journal= {arXiv preprint arXiv:2003.08780},
  year   = {2021}
}

Comments

Submitted to the IEEE Transactions on Networking

R2 v1 2026-06-23T14:20:09.200Z