Abstract
With the growth of wireless sensor networks (WSN), new technologies like the Internet-of-Things (IoT) are being created. There may be challenges that come because when implementing these application areas in practice. The primary issue is energy utilization while data transmission between these resource restricted sensors. In this work, we present a cluster-based routing protocol for IoT to anticipate energy utilization. Furthermore, for cluster head selection and cluster updation, we presented a multi-population ensemble particle swarm optimizer. The simulation was carried out using the MATLAB platform and demonstrates its superiority over different approaches.
Highlights
The Internet of Things (IoT) is a new set of services and apps that link and provide access to all kinds of tangible gadgets
The Internet of Things (IoT) allows devices to communicate with one another and allows data or information to be collected at any time from any location
The update cycle is calculated using a fuzzy inference approach to achieve minimum energy consumption by clustering nodes. When it comes to energy efficiency, Manzoor et al [3] concentrated on making the Two-Level Hierarchy for Low Energy Adaptive Clustering Hierarchy (TL-low-energy adaptive clustering hierarchy (LEACH)) protocol as resilient as feasible while reducing communication overhead
Summary
The Internet of Things (IoT) is a new set of services and apps that link and provide access to all kinds of tangible gadgets. The widespread adoption of wireless sensor networks in the form of technology and applications in areas such as industrial applications, security and military surveillance, home automation, and others has increased the demand for machine-to-machine connectivity and data or information availability at all times and in all places [1]. This demand has resulted in the creation of new technologies in the shape of the Internet of Things (IoT). Collisions are avoided and redundancy is minimized by establishing transmission and reception timeslots for nodes participating in round-robin fashion
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