Comparing Ensemble Learning Techniques on Data Transmission Reduction for IoT Systems

Conference paper


Salah, Ahmad, Bekhit, Mahmoud, M. Alkalbani, Asma, Mohamed, Mohamed, Lestari, Nur Indah and Fathalla, Ahmed. (2023). Comparing Ensemble Learning Techniques on Data Transmission Reduction for IoT Systems. Switzerland: Springer Nature. pp. 72-85 https://doi.org/10.1007/978-3-031-33743-7_6
AuthorsSalah, Ahmad, Bekhit, Mahmoud, M. Alkalbani, Asma, Mohamed, Mohamed, Lestari, Nur Indah and Fathalla, Ahmed
TypeConference paper
Abstract

The Internet of Things (IoT) systems include a massive number of connected devices. The communication between these devices requires a huge amount of communication. Thus, it is very crucial for an IoT system to reduce communication volumes by minimizing the amount of data transmission. There are several approaches to achieving the goal of data transmission reduction, such as data compression and dual prediction. Dual prediction schemes received more attention in comparison to data compression. The mainstream techniques for proposing dual prediction schemes in the literature can be classified into two main groups, namely, filter-based and deep learning-based methods. The filter-based methods, such as the 1-D Kalman filter, are lightweight in terms of running time and the model’s memory requirements. On the other hand, deep learning-based methods require more memory space and training time, but deep learning models are more accurate as predictive models in comparison to filter-based methods in dual prediction schemes. There are very limited efforts to utilize machine learning methods in dual prediction schemes as a compromise between the aforementioned mainstream techniques. In this work, we extended one of these limited efforts, which utilizes boosting ensemble learning as a machine learning predictive method in a proposed dual prediction scheme. The current work proposes exploring the performance gap between the three main approaches to ensemble learning, namely, boosting, stacking, and bagging. The three proposed ensemble learning models are evaluated on a real dataset and compared against state-of-the-art methods. The obtained results show that among the ensemble learning models, boosting and bagging models are better than the stacking model, but the three proposed ensemble learning models outperformed the state-of-the-art methods of comparison. For instance, the average numbers of mispredictions for all of the experiments were 580, 551, and 1,106 for boosting, bagging, and stacking, respectively.

Year01 Jan 2023
JournalProceedings of the 2023 International Conference on Advances in Computing Research (ACR’23)
PublisherSpringer Nature
ISSN2227-7390
Digital Object Identifier (DOI)https://doi.org/10.1007/978-3-031-33743-7_6
Web address (URL)https://link.springer.com/book/10.1007/978-3-031-33743-7
Open accessPublished as non-open access
Research or scholarlyResearch
Publisher's version
License
All rights reserved
File Access Level
Controlled
Page range72-85
ISBN978-3-031-33743-7
Web address (URL) of conference proceedingshttps://link.springer.com/book/10.1007/978-3-031-33743-7
Output statusPublished
Publication dates
PrintMay 2023
Publication process dates
AcceptedMay 2023
Deposited17 Jun 2024
Additional information

© The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2023.

Place of publicationSwitzerland
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