A survey on wireless sensor networks for smart grid
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info:eu-repo/semantics/closedAccessDate
2015Author
Fadel, EtimadGungor, Vehbi Cagri
Nassef, Laila
Akkari, Nadine
Abbas Malik M.G.
Almasri, Suleiman
Akyildiz, Ian F.
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The traditional power grid in many countries suffers from high maintenance costs and scalability issues along
with the huge expense of building new power stations, and lack of efficient system monitoring that could increase the overall performance by acting proactively in preventing potential failures. To address these problems, a next-generation electric power system, called the smart grid (SG), has been proposed as an evolutionary system for power generation, transmission, and distribution. To this end, the SGs utilize renewable
energy generation, smart meters and modern sensing and communication technologies for effective power
system management, and hence, succeeding in addressing many of the requirements of a modern power grid
system while significantly increase its performance. Recently, wireless sensor networks (WSNs) have been
recognized as a promising technology to achieve seamless, energy efficient, reliable, and low-cost remote
monitoring and control in SG applications. In these systems, the required information can be provided to
electric utilities by wireless sensor systems to enable them to achieve high system efficiency. The real-time
information gathered from these sensors can be analyzed to diagnose problems early and serve as a basis for
taking remedial action. In this paper, first WSN-based SG applications have been explored along with their
technical challenges. Then, design challenges and protocol objectives have been discussed for WSN-based SG
applications. After exploring applications and design challenges, communication protocols for WSN-based
SG applications have been explained in detail. Here, our goal is to elaborate on the role of WSNs for smart
grid applications and to provide an overview of the most recent advances in MAC and routing protocols for
WSNs in this timely and exciting field.