An Energy-Efficient Pathfinding Model for Wireless Sensor Networks in IoT Using Whale Optimization Algorithm
Keywords:
Internet of Things, Energy-Efficient Data Routing, Wireless Sensor Networks, Swarm Intelligence
Abstract
The Internet of Things (IoT) offers the ability of device-to-device seamless connectivity, which enables real-timedata collection and collaboration. Wireless Sensor Networks (WSNs), which are collections of geographically dispersedsensor nodes, are integral to IoT systems but suffer from low energy, storage, and wasteful data transmission, causingnetwork instability, latency, and high energy consumption. To address these issues, the current research proposes a novelPathfinding algorithm based on the Improved Whale Optimization Algorithm (IWOA) for WSNs. The aim of the currentresearch is to enhance the network’s performance by optimizing energy consumption, hop count, and data transmissionefficiency. The proposed method utilizes intermediate sensors and optimizes the transmission paths step by step with theassistance of IWOA, thus performing efficient energy-saving data routing. The simulation outcomes indicate that the WhaleOptimization Algorithm outperforms the Genetic Algorithm (GA) and Particle Swarm Optimization (PSO) approaches with30% improvement in network lifetime, 10% higher number of active nodes, 15% higher successful packet deliveries, and17% lower data transmission delay. These results illustrate the effectiveness of the introduced algorithm in maximizing WSNperformance and hence are an important contribution to decentralized peer-to-peer and distributed systems.
Published
2025-07-23
How to Cite
BOUAROUROU, S., Zannou, A., Nfaoui, E. H., Kanzouai, C., & Boulaalam, A. (2025). An Energy-Efficient Pathfinding Model for Wireless Sensor Networks in IoT Using Whale Optimization Algorithm. Statistics, Optimization & Information Computing. https://doi.org/10.19139/soic-2310-5070-2433
Issue
Section
Research Articles
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