Author
Listed:
- Luka Aime Atadet
(School of Information and Communication Technology (SoICT), College of Science and Technology, University of Rwanda, Kigali P.O. Box 3900, Rwanda)
- Richard Musabe
(School of Information and Communication Technology (SoICT), College of Science and Technology, University of Rwanda, Kigali P.O. Box 3900, Rwanda)
- Eric Hitimana
(School of Information and Communication Technology (SoICT), College of Science and Technology, University of Rwanda, Kigali P.O. Box 3900, Rwanda)
- Omar Gatera
(African Centre of Excellence in Internet of Things, College of Science and Technology, University of Rwanda, Kigali P.O. Box 3900, Rwanda)
Abstract
The rising demand for long-range, low-power wireless communication in applications such as monitoring, smart metering, and wide-area sensor networks has emphasized the critical need for efficient spectrum utilization in LoRaWAN (Long Range Wide Area Network). In response to this challenge, this paper proposes a novel channel selection framework based on Hierarchical Discrete Pursuit Learning Automata (HDPA), aimed at enhancing the adaptability and reliability of LoRaWAN operations in dynamic and interference-prone environments. HDPA leverages a tree-structure reinforcement learning model to monitor and respond to transmission success in real-time, dynamically updating channel probabilities based on environmental feedback. Simulation results conducted in MATLAB R2023b demonstrate that HDPA significantly outperforms conventional algorithms such as Hierarchical Continuous Pursuit Automata (HCPA) in terms of convergence speed, selection accuracy, and throughput performance. Specifically, HDPA achieved 98.78% accuracy with a mean convergence of 6279 iterations, compared to HCPA’s 93.89% accuracy and 6778 iterations in an eight-channel setup. Unlike the Tug-of-War-based Multi-Armed Bandit strategy, which emphasizes fairness in real-world heterogeneous networks, HDPA offers a computationally lightweight and highly adaptive solution tailored to LoRaWAN’s stochastic channel dynamics. These results position HDPA as a promising framework for improving reliability and spectrum utilization in future IoT deployments.
Suggested Citation
Luka Aime Atadet & Richard Musabe & Eric Hitimana & Omar Gatera, 2025.
"Optimizing LoRaWAN Performance Through Learning Automata-Based Channel Selection,"
Future Internet, MDPI, vol. 17(12), pages 1-15, December.
Handle:
RePEc:gam:jftint:v:17:y:2025:i:12:p:555-:d:1808362
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