Wireless Sensor Network Virtualization: Early Architecture and Research Perspectives
Abstract
Wireless sensor networks (WSNs) have become pervasive and are used in many applications and services. Usually the deployments of WSNs are task oriented and domain specific; thereby precluding re-use when other applications and services are contemplated. This inevitably leads to the proliferation of redundant WSN deployments. Virtualization is a technology that can aid in tackling this issue, as it enables the sharing of resources/infrastructure by multiple independent entities. In this paper we critically review the state of the art and propose a novel architecture for WSN virtualization. The proposed architecture has four layers (physical layer, virtual sensor layer, virtual sensor access layer and overlay layer) and relies on the constrained application protocol (CoAP). We illustrate its potential by using it in a scenario where a single WSN is shared by multiple applications; one of which is a fire monitoring application. We present the proof-of-concept prototype we have built along with the performance measurements, and discuss future research directions.
Cite
@article{arxiv.1501.07135,
title = {Wireless Sensor Network Virtualization: Early Architecture and Research Perspectives},
author = {Imran Khan and Fatna Belqasmi and Roch Glitho and Noel Crespi and Monique Morrow and Paul Polakos},
journal= {arXiv preprint arXiv:1501.07135},
year = {2016}
}
Comments
Accepted for publication on June 27th 2014 in Forthcoming issue of IEEE Network Magazine (May/June 2015 issue)