Research Article
Coverage Probability of EH-enabled LoRa networks - A Deep Learning Approach
@ARTICLE{10.4108/eetinis.v12i2.6780, author={Thi-Tuyet-Hai Nguyen and Tran Cong-Hung and Nguyen Hong-Son and Tan Hanh and Tran Trung Duy and Lam-Thanh Tu}, title={Coverage Probability of EH-enabled LoRa networks - A Deep Learning Approach}, journal={EAI Endorsed Transactions on Industrial Networks and Intelligent Systems}, volume={12}, number={2}, publisher={EAI}, journal_a={INIS}, year={2024}, month={12}, keywords={Coverage probability, deep learning, energy harvesting, long range, power beacon}, doi={10.4108/eetinis.v12i2.6780} }- Thi-Tuyet-Hai Nguyen
Tran Cong-Hung
Nguyen Hong-Son
Tan Hanh
Tran Trung Duy
Lam-Thanh Tu
Year: 2024
Coverage Probability of EH-enabled LoRa networks - A Deep Learning Approach
INIS
EAI
DOI: 10.4108/eetinis.v12i2.6780
Abstract
The performance of energy harvesting (EH)-enabled long-range (LoRa) networks is analyzed in this work. Specifically, we employ deep learning (DL) to estimate the coverage probability (Pcov) of the considered networks. Our study incorporates a general fading distribution, specifically the Nakagami-m distribution, and utilizes tools from stochastic geometry (SG) to model the spatial distributions of all nodes and end-devices (EDs) with EH capability. The DL approach is employed to overcome the limitations of model-based methods that can only evaluate the Pcov under simplified network conditions. Therefore, we propose a deep neural network (DNN) that estimates the Pcov with high accuracy compared to the ground truth values. Additionally, we demonstrate that DL significantly outperforms the Monte Carlo simulation approach in terms of resource consumption, including time and memory.
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