English

Utility-Optimal Dynamic Rate Allocation under Average End-to-End Delay Requirements

Networking and Internet Architecture 2015-11-02 v2

Abstract

QoS-aware networking applications such as real-time streaming and video surveillance systems require nearly fixed average end-to-end delay over long periods to communicate efficiently, although may tolerate some delay variations in short periods. This variability exhibits complex dynamics that makes rate control of such applications a formidable task. This paper addresses rate allocation for heterogeneous QoS-aware applications that preserves the long-term end-to-end delay constraint while, similar to Dynamic Network Utility Maximization (DNUM), strives to achieve the maximum network utility aggregated over a fixed time interval. Since capturing temporal dynamics in QoS requirements of sources is allowed in our system model, we incorporate a novel time-coupling constraint in which delay-sensitivity of sources is considered such that a certain end-to-end average delay for each source over a pre-specified time interval is satisfied. We propose DA-DNUM algorithm, as a dual-based solution, which allocates source rates for the next time interval in a distributed fashion, given the knowledge of network parameters in advance. Through numerical experiments, we show that DA-DNUM gains higher average link utilization and a wider range of feasible scenarios in comparison with the best, to our knowledge, rate control schemes that may guarantee such constraints on delay.

Keywords

Cite

@article{arxiv.1509.03374,
  title  = {Utility-Optimal Dynamic Rate Allocation under Average End-to-End Delay Requirements},
  author = {Mohammad H. Hajiesmaili and Mohammad Sadegh Talebi and Ahmad Khonsari},
  journal= {arXiv preprint arXiv:1509.03374},
  year   = {2015}
}
R2 v1 2026-06-22T10:54:16.009Z