Litcius/Paper detail

A two‐level clustering mechanism for energy enhancement in Internet‐of‐Things‐based wireless sensor networks

Haythem Bany Salameh, Heba Obaidat, Ahmad Alshamali, Yaser Jararweh

2021International Journal of Communication Systems20 citationsDOI

Abstract

Summary Wireless sensors are considered the key elements in enabling efficient Internet of Things (IoT) networking and services. One of the key objectives in designing a WSN is increasing network lifetime by reducing the overall network energy consumption. To achieve this, several techniques have been proposed to extend the network lifetime, such as clustering. Clustering divides the network into several clusters, each with its own member nodes and a cluster‐head (CH) node. In this paper, a novel clustering mechanism is developed with the objective of extending network lifetime through load balancing in wireless sensor networks (WSNs). This is achieved by electing a new node to a provides specific tasks in the WSN to decrease energy consumption and enhance network lifetime. This node is called a relay node that is responsible of delivering the received data packets from the CHs, and then forwards them to the central node (sink). Unlike previous clustering schemes, the proposed algorithm consists of three main processes: CH selection, relay node selection, and medium access control processes. These processes depend on energy level and user's distributions. The performance of the proposed algorithm is investigated through simulation experiments in terms of network lifetime under various network parameters. The results reveal that the proposed mechanism significantly enhances network lifetime compared to previously proposed algorithms.

Topics & Concepts

Computer scienceComputer networkWireless sensor networkCluster analysisNetwork packetRelayEnergy consumptionNode (physics)Key distribution in wireless sensor networksEfficient energy useDistributed computingWireless networkWirelessTelecommunicationsMachine learningStructural engineeringPower (physics)PhysicsBiologyElectrical engineeringEngineeringQuantum mechanicsEcologyEnergy Efficient Wireless Sensor NetworksEnergy Harvesting in Wireless NetworksMolecular Communication and Nanonetworks