Hybrid Powerline/Wireless Diversity for Smart Grid Communications: Design Challenges and Real-time Implementation

TL;DR

This paper explores the design and implementation of a hybrid powerline and wireless communication system for smart grids, demonstrating improved reliability through diversity combining schemes and a real-time testbed.

Contribution

It introduces a hybrid PLC/wireless communication approach for smart grids and presents a real-time testbed to evaluate diversity combining performance.

Findings

Hybrid communication enhances reliability over single links.

Diversity combining schemes improve data transmission robustness.

Real-time implementation confirms performance gains.

Abstract

The demand for energy is growing at an unprecedented pace that is much higher than the energy generation capacity growth rate using both conventional and green technologies.In particular, the electric power sector is consistently rated among the most dynamic growth markets over all other energy markets. Distributed (decentralized) energy generation based on renewable energy sources is an efficient and reliable solution to serve such huge energy demand growth [1]. However, to manage dynamic and complex distributed systems, a massive amount of data has to be measured, collected, exchanged and processed in real time. Smart grids manage an intelligent energy delivery network enabled two-way communications between data concentrators operated by utility companies and smart meters installed at the end users. In particular, dynamic power-grid loading and peak load management are the two main driving forces for bidirectional communications over the grid. Narrowband power line communications (NB-PLC) and wireless communications in the unlicensed frequency band (sub-1 GHz or 2.4 GHz) are the two main communications systems adopted to support the growing smart grid applications. Moreover, since NB-PLC and unlicensed wireless links experience channel and interference with markedly different statistics, transmitting the same information signal concurrently over both links significantly enhances the smart grid communications reliability. In this article, we compare various diversity combining schemes for simultaneous power line and wireless transmissions. Furthermore, we developed a real-time testbed for the hybrid PLC/wireless system to demonstrate the performance enhancement achieved by PLC/wireless diversity combining over a single link performance.