English

MDC Enhanced IoT Networks: Network Modeling and Performance Analysis

Networking and Internet Architecture 2023-12-27 v1

Abstract

As a promising architecture, Mobile Data Collector (MDC) enhanced Internet of Things (IoT) exhibits broad prospects in efficient data collection and data aggregation especially for sparse deployment scenarios. Combining the tools from queueing theory and stochastic geometry, we propose an analytical framework to study the network performance of an MDC enhanced IoT network, in terms of coverage probability, end-to-end delay and energy consumption. We derive the closed-form expressions for average contact and inter-contact time between a sensor and its associated MDC. By modeling the data collection system between a sensor and its associated MDCs as an M/G/1 queue system with vacations and general limited (G-limited) service, we first derive the queueing delay at the tagged sensor, and further obtain the end-to-end delay. The proposed analytical framework enables us to quantify the effect on network performance of key system parameters, such as MDC velocity, packet arrival rate, densities of sensors and MDCs, and contact radius. This study reveals that the MDC velocity has little impact on the coverage probability, and provides guidelines to minimize the end-to-end delay by optimizing the density and contact radius of sensors, and the velocity and density of MDCs.

Keywords

Cite

@article{arxiv.2211.00514,
  title  = {MDC Enhanced IoT Networks: Network Modeling and Performance Analysis},
  author = {Hongguang Sun and Yajun Ma and Tony Q. S. Quek and Xijun Wang and Kun Guo and Hongming Zhang},
  journal= {arXiv preprint arXiv:2211.00514},
  year   = {2023}
}

Comments

32 pages, 12 figures, submitted to IEEE Transactions on Green Communications and Networking

R2 v1 2026-06-28T04:56:08.238Z