Abstract

Smart grid is a utility network, with advanced information and communications technologies for improved control, efficiency, reliability and safety in electric power distribution and management. Smart grid communication network consists of three interconnected communication networks: home area network (HAN), neighborhood area network (NAN), and wide area network (WAN). Our thesis is focused on NAN. The information flow in smart grid communication networks has different Quality of Service (QoS) requirements in terms of packet loss rate, throughput, and latency. By deploying QoS mechanisms, we can get the real time feedbacks which can be used to supply electricity based on need, thus reducing the wastage of electricity. First, we conducted Opnet simulations for NAN. We evaluated two technologies, Zigbee and wireless local area network (WLAN), for NAN. The simulation results demonstrate that latency can be reduced for the data flow with a higher priority with an appropriate QoS mechanism. Next, we proposed an optimal resource allocation scheme to reduce delay and provide differentiated services, in terms of latency, to different classes of traffic in the NAN. The problem is formulated into a linear programming (LP) problem, which can be solved efficiently. The simulation results and comparison demonstrates that the proposed resource allocation scheme can provide overall lower latency of the various data flows. Our method also lowers the delay of the data flow with a higher priority.

Highlights

  • 1.1 Smart grid – A brief introductionThe electricity sector has become the focused strategy interest in Canada and globally

  • We have focused on Neighborhood Area Network (NAN) and have worked with Zigbee and wireless local area network (WLAN)

  • We have evaluated in three different categories: reliability, delay and throughput

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Summary

Smart grid – A brief introduction

The electricity sector has become the focused strategy interest in Canada and globally It has been discussed often as an answer to power management, rather than the continued maturation of an electricity network. Smart grid refers to generation utility networks in which the electric power distribution and management is upgraded by incorporating advanced information and communications technologies for improved control, efficiency, reliability, and safety [2]. It could be summarized as the grid's ability to sense the state of the grid and act automatically and independently upon this state based on rules or algorithms previously defined. Smart Grid will play a key role in improving energy efficiency [4]

Importance of communications in Smart Grid
The Importance of QoS in Smart Grid Communication
Smart Grid Challenges
Motivation and Contribution
Thesis Organization
Literature
Smart Grid Communication Architecture
QoS in smart grid
Introduction
Simulation Setting
Simulation results for Zigbee NAN
Simulation results for NAN using WLAN
Chapter Summary
System Models and Problem Formulation
Simulation
Conclusion
Findings
Future Work
Full Text
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