![]() On the performance of multi-channel wireless sensor networks in smart grid environments. Performance evaluations of zigbee in different smart grid environments. Spectrum-aware and cognitive sensor networks for smart grid applications. ![]() Radio link quality estimation in low-power wireless networks., Springer briefs in electrical and computer engineering Berlin: Springer. Radio link quality estimation in wireless sensor networks: A survey. The role of communication systems in smart grids: Architectures, technical solutions and research challenges. (2011) Design of a delay-sensitive WSN for generation monitoring in the smart grid. IEEE Communications Surveys and Tutorials, 18(1), 525–552. A survey on cross-layer quality-of-service approaches in WSNs for delay and reliability-aware applications. Delay critical smart grid applications and adaptive QoS provisioning. Priority- and delay-aware medium access for wireless sensor networks in the smart grid. In IEEE global communications conference, GLOBECOM 2013, Atlanta, GA (pp. QoS-aware inter-cluster head scheduling in WSNs for high data rate smart grid applications. A delay mitigation scheme for WSN-based smart grid substation monitoring. We believe this survey will pave the way for the research community to (i) understand important concepts related to WSN-based smart grid communications, (ii) identify gaps and make valuable contributions in this timely and exiting field and (iii) choose the convenient experimental platform for the validation of proposed solutions.Īl-Anbagi, I. This paper provides a comprehensive survey on related literature, discusses the still-open research issues, and identifies the most common validation platforms for experimenting WSN communications in smart grid. Consequently, traditional WSN communication protocols have been shown inadequate and several recent research efforts were dedicated for their optimization. However, the deployment of WSNs in smart grids brought new challenges mainly due to the electric grid features. They bring significant advantages such as, rapid deployment, low cost and scalability. Wireless sensor networks (WSNs) have been considered as a promising communication technology for the monitoring and control of smart grid operation. Smart grids, the next generation of electric grids, require the deployment of sophisticated monitoring and control systems to enhance their operational efficiency.
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