Deep learning techniques for noise-resilient localisation in wireless sensor networks
Abstract
Deep learning techniques are highly attractive for extracting meaningful representations of data of the type encountered in wireless sensor network applications. In particular, these techniques lend themselves readily to the implementation of node localisation in wireless sensor networks as the present work demonstrates. Anchor-based range-based time-ofarrival-measurement deep learning localisation techniques are implemented both in the classification and in the regression modes using convolutional neural networks and standard deep neural networks. A performance comparison against gradient descent localisation is carried out. Deep learning techniques exhibited better noise resilience for typical standard deviation ranges of the measurement noise, especially when used in the classification mode. Compressed sampling is also implemented for tracking a mobile node via deep learning regression techniques to increase energy efficiency.
RAS ID
39846
Document Type
Journal Article
Date of Publication
1-1-2021
Volume
36
Issue
2
School
School of Engineering
Copyright
subscription content
Publisher
Inderscience
Comments
Alwan, N. A. S., & Hussain, Z. M. (2021). Deep learning techniques for noise-resilient localisation in wireless sensor networks. International Journal of Sensor Networks, 36(2), 59-67.
https://doi.org/10.1504/IJSNET.2021.115916