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AuthorSaadat, Hassan
AuthorAllahham, Mhd Saria
AuthorAbdellatif, Alaa Awad
AuthorErbad, Aiman
AuthorMohamed, Amr
Available date2023-05-23T07:49:50Z
Publication Date2022-05-30
Publication Name2022 International Wireless Communications and Mobile Computing, IWCMC 2022
Identifierhttp://dx.doi.org/10.1109/IWCMC55113.2022.9824994
CitationSaadat, H., Allahham, M. S., Abdellatif, A. A., Erbad, A., & Mohamed, A. (2022, May). RL-Assisted Energy-Aware User-Edge Association for IoT-based Hierarchical Federated Learning. In 2022 International Wireless Communications and Mobile Computing (IWCMC) (pp. 548-553). IEEE.
ISBN978-1-6654-6749-0
ISSN2376-6492
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85135287618&origin=inward
URIhttp://hdl.handle.net/10576/43340
AbstractThe extremely heavy global reliance on IoT devices is causing enormous amounts of data to be gathered and shared in IoT networks. Such data need to efficiently be used in training and deploying of powerful artificially intelligent models for better future event detection and decision making. However, IoT devices suffer from many limitations regarding their energy budget, computational power, and storage space. Therefore, efficient solutions have to be studied and proposed for addressing these limitations. In this paper, we propose an energy-efficient Hierarchical Federated Learning (HFL) framework with optimized client-edge association and resource allocation. This was done by formulating and solving a communication energy minimization problem that takes into consideration the data distribution of the clients and the communication latency between the clients and edges. We also implement an alternative less complex solution leveraging Reinforcement Learning (RL) that provides a fast user-edge association and resource allocation response in highly dynamic HFL networks. The proposed two solutions are compared with several state-of-the-art client-edge association techniques, leveraging MNIST dataset. Moreover, we study the trade-off between minimizing the per-round energy consumption and Kullback-Leibler Divergence (KLD) of the data distribution, and its effect on the total energy consumption.
SponsorThis work was made possible by NPRP grant # NPRP13S-0205-200265 from the Qatar National Research Fund (a member of Qatar Foundation).
Languageen
SubjectEnergy minimization
Hierarchical federated learning
Internet of things
Reinforcement learning
Resource allocation
TitleRL-Assisted Energy-Aware User-Edge Association for IoT-based Hierarchical Federated Learning
TypeConference Paper
Pagination548-553
ESSN2376-6506
dc.accessType Abstract Only


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