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Title	Incorporation Of Energy Efficient Computational Strategies For Clustering And Routing In Heterogeneous Networks Of Smart City
ID_Doc	31134
Authors	Venkatesan V.K.; Izonin I.; Periyasamy J.; Indirajithu A.; Batyuk A.; Ramakrishna M.T.
Year	2022
Published	Energies, 15, 20
DOI	http://dx.doi.org/10.3390/en15207524
Abstract	For decision-making and governance, smart cities depend on tracking data collected via a substantial percentage of wireless sensing nodes. However, several limitations affect Wireless Sensor Network (WSN)-based Internet of Things (IoT) services, such as low battery life, recurrent connectivity problems due to multi-hop connections, and a limited channel capacity. Furthermore, in many systems, clustering and routing are handled independently, which prevents the adaptation of effective strategies for optimal energy usage and prolonged network lifespan. This research gathers data from heterogeneous IoT nodes linked via WSN and distributed across a smart infrastructure. There are two interrelated problems to be addressed with respect to energy efficiency computations: clustering and routing. We provide a new clustering strategy through which efficient routing of critical and regular data is handled. As a result, both clustering and routing have been significantly strengthened, which balances the communication load across different sectors of the smart infrastructure network. Minkowski distance and ranking strategy are used for routing and selecting cluster heads, respectively. Deterministic distributed–time division multiple access (DD-TDMA) scheduling is employed to balance the communication load across the network. The experimental results show that the proposed work outperforms some of the popular cluster-based routing strategies. © 2022 by the authors.
Author Keywords	base station; cluster head; clustering; data transmission; DD-TDMA; energy efficiency; IoT; routing; smart city; WSN

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