English

Traffic-aware Two-stage Queueing Communication Networks: Queue Analysis and Energy Saving

Networking and Internet Architecture 2020-02-18 v2

Abstract

To boost energy saving for the general delay-tolerant IoT networks, a two-stage and single-relay queueing communication scheme is investigated. Concretely, a traffic-aware NN-threshold and gated-service policy are applied at the relay. As two fundamental and significant performance metrics, the mean waiting time and long-term expected power consumption are explicitly derived and related with the queueing and service parameters, such as packet arrival rate, service threshold and channel statistics. Besides, we take into account the electrical circuit energy consumptions when the relay server and access point (AP) are in different modes and energy costs for mode transitions, whereby the power consumption model is more practical. The expected power minimization problem under the mean waiting time constraint is formulated. Tight closed-form bounds are adopted to obtain tractable analytical formulae with less computational complexity. The optimal energy-saving service threshold that can flexibly adjust to packet arrival rate is determined. In addition, numerical results reveal that: 1) sacrificing the mean waiting time not necessarily facilitates power savings; 2) a higher arrival rate leads to a greater optimal service threshold; and 3) our policy performs better than the current state-of-the-art.

Keywords

Cite

@article{arxiv.1909.05891,
  title  = {Traffic-aware Two-stage Queueing Communication Networks: Queue Analysis and Energy Saving},
  author = {Nan Qi and Nikolaos I. Miridakis and Ming Xiao and Theodoros A. Tsiftsis and Rugui Yao and Shi Jin},
  journal= {arXiv preprint arXiv:1909.05891},
  year   = {2020}
}
R2 v1 2026-06-23T11:13:55.833Z