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Energy-efficient distributed heterogeneous clustered spectrum-aware cognitive radio sensor network for guaranteed quality of service in smart grid

Author

Listed:
  • Emmanuel Ogbodo
  • David Dorrell
  • Adnan Abu-Mahfouz

Abstract

The development of a modern electric power grid has triggered the need for large-scale monitoring and communication in smart grids for efficient grid automation. This has led to the development of smart grids, which utilize cognitive radio sensor networks, which are combinations of cognitive radios and wireless sensor networks. Cognitive radio sensor networks can overcome spectrum limitations and interference challenges. The implementation of dense cognitive radio sensor networks, based on the specific topology of smart grids, is one of the critical issues for guaranteed quality of service through a communication network. In this article, various topologies of ZigBee cognitive radio sensor networks are investigated. Suitable topologies with energy-efficient spectrum-aware algorithms of ZigBee cognitive radio sensor networks in smart grids are proposed. The performance of the proposed ZigBee cognitive radio sensor network model with its control algorithms is analyzed and compared with existing ZigBee sensor network topologies within the smart grid environment. The quality of service metrics used for evaluating the performance are the end-to-end delay, bit error rate, and energy consumption. The simulation results confirm that the proposed topology model is preferable for sensor network deployment in smart grids based on reduced bit error rate, end-to-end delay (latency), and energy consumption. Smart grid applications require prompt, reliable, and efficient communication with low latency. Hence, the proposed topology model supports heterogeneous cognitive radio sensor networks and guarantees network connectivity with spectrum-awareness. Hence, it is suitable for efficient grid automation in cognitive radio sensor network–based smart grids. The traditional model lacks these capability features.

Suggested Citation

  • Emmanuel Ogbodo & David Dorrell & Adnan Abu-Mahfouz, 2021. "Energy-efficient distributed heterogeneous clustered spectrum-aware cognitive radio sensor network for guaranteed quality of service in smart grid," International Journal of Distributed Sensor Networks, , vol. 17(7), pages 15501477211, July.
    • Handle: RePEc:sae:intdis:v:17:y:2021:i:7:p:15501477211028399
    DOI: 10.1177/15501477211028399
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    References listed on IDEAS

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    1. Aijing Sun & Axin Wu & Xiaokun Zheng & Fangyuan Ren, 2019. "Efficient and privacy-preserving certificateless data aggregation in Internet of things–enabled smart grid," International Journal of Distributed Sensor Networks, , vol. 15(4), pages 15501477198, April.
    2. Xingyu Chen & Puyuan Zhao & Peng Yu & Baoju Liu & Wenjing Li & Yingjun Xie & Xiangzhou Chen & Mengying Yuan, 2018. "Risk analysis and optimization for communication transmission link interruption in Smart Grid cyber-physical system," International Journal of Distributed Sensor Networks, , vol. 14(2), pages 15501477187, February.
    3. Khan, Zeeshan Ali & Faheem, Yasir, 2014. "Cognitive radio sensor networks: Smart communication for smart grids—A case study of Pakistan," Renewable and Sustainable Energy Reviews, Elsevier, vol. 40(C), pages 463-474.
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    Cited by:

    1. Patricia Franco & José M. Martínez & Young-Chon Kim & Mohamed A. Ahmed, 2022. "A Cyber-Physical Approach for Residential Energy Management: Current State and Future Directions," Sustainability, MDPI, vol. 14(8), pages 1-33, April.

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