Abstract

Due to its attractive characteristics, the TV white space (TVWS) spectrum is considered the ideal candidate to enable the deployment of smart grid networks (SGNs) via cognitive radio paradigm. However, the intermittent availability of the TVWS spectrum as well as its scarcity in urban scenarios could compromise the tight smart grid requirements in terms of reliability, latency, and data rate. This degradation could be even more severe when mobile grid nodes, e.g., electric vehicles, are considered. Stemming from this, we first develop an analytical framework to account for the mobility in SG scenarios. Then, we design a switching procedure based on the use of two different bands: TVWS spectrum and Industrial, Scientific and Medical (ISM) spectrum. The switching procedure selects, among the available spectrum bands, the one maximizing the achievable throughput at an arbitrary SGN. Such a procedure accounts for the presence of interfering SGNs on the TVWS spectrum through both their traffic and mobility patterns. By wisely using both the ISM and the TVWS spectrum, the proposed switching procedure is able to: 1) increase the achievable data rate, and to 2) reduce the outage event rate, improving the reliability and the latency of the smart grid communications. Moreover, we show the performance of the proposed switching procedure depends largely on the time devoted to sense. Hence, the proper setting of such a parameter is critical for the performance of any SGN. For this, we derive an optimization criterion maximizing the throughput under the constraint of bounding the outage rate. The theoretical analysis is validated through extensive numerical simulations.

Highlights

  • The TV White Space (TVWS) spectrum has been recently recognized by the research community as the ideal candidate to accommodate the rapidly increasing demand for wireless broadband communications in Smart Grid Networks (SGNs) via Cognitive Radio (CR) paradigm [1]–[7]

  • NUMERICAL EVALUATION we evaluate the performance of the proposed switching algorithm by adopting, as a case study, a Smart Grid based on IEEE 802.11af wireless technology for the TVWS channels and IEEE 802.11b7 wireless technology for the ISM band

  • In this paper we studied the problem of exploiting the TV White Space spectrum for Smart Grid Networks in urban scenarios characterized by grid node mobility

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Summary

INTRODUCTION

The TV White Space (TVWS) spectrum has been recently recognized by the research community as the ideal candidate to accommodate the rapidly increasing demand for wireless broadband communications in Smart Grid Networks (SGNs) via Cognitive Radio (CR) paradigm [1]–[7]. We propose a switching procedure based on the use of two different bands: TVWS spectrum and ISM spectrum This switching procedure, as detailed, relies on the capability of the arbitrary SGN to sense the available TVWS spectrum for discovering the interference generated by any closely-located SGN. By wisely using both the ISM and the TVWS spectrum, the proposed switching procedure significantly improves the SG performance in terms of reliability as well as temporal latency and data-rate, since it jointly overcomes: i) the intermittent availability of the TVWS spectrum due to either the incumbent protection or the presence of interference; ii) the high outage rate of the ISM band.

RELATED WORKS
PRELIMINARIES
ANALYTICAL FRAMEWORK
MOBILITY EFFECTS
CONSTRAINED THROUGHPUT MAXIMIZATION
CONCLUSIONS

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