Citation
Umair, Muhammad and Tan, Wooi Haw and Foo, Yee Loo (2023) Challenges in Federated Learning for Resource-Constrained IoT Environments: Energy Efficiency, Privacy, and Statistical Heterogeneity. In: 2023 IEEE 8th International Conference on Recent Advances and Innovations in Engineering (ICRAIE), 02-03 December 2023, Kuala Lumpur, Malaysia.
Text
Challenges in Federated Learning for Resource-Constrained IoT Environments_ Energy Efficiency, Privacy, and Statistical Heterogeneity.pdf - Published Version Restricted to Repository staff only Download (1MB) |
Abstract
Due to the extensive Internet availability and interconnections of sensing devices, new sensor-equipped or Internet-of-Things (IoT) devices with increased processing and computing capabilities are generating enormous volumes of data. With the use of Machine Learning (ML) techniques, this data may be preprocessed, categorized, and used to forecast upcoming occurrences. However, because data is transferred to and analyzed via a central server, typical ML algorithms have high communication cost, processing latency, privacy concerns, and security problems. To overcome these issues, Federated Learning (FL) employs a decentralized learning strategy in which each client is taught locally using its available data and learning from the global model. Implementation and scalability issues for FL approaches arise from the different computing resource capacities of clients in large-scale networks. In this paper, we discuss open problems and future directions in the FL domain related to devices with limited resources, such as memory, bandwidth, and energy efficient algorithms. We also explore recent real-world applications of FL, highlighting the difficulties of implementing FL algorithms in resourceconstrained IoT environments, and explore open issues in the FL domain. The main contributions of this study include the challenges and how to deal with them and detailed discussion about energy-efficient algorithms addressing straggler clients, privacy preservation, and handling statistical heterogeneity. For energy-efficient algorithms, alternative neural network architectures such as Spiking Neural Networks (SNNs) is discussed, Mitigating the impact of straggler clients can be achieved by capable clients based on available resources and developing asynchronous training techniques. Privacy concerns can be addressed through privacy-preserving mechanisms like Secure Multiparty Computation (SMC) or Differential Privacy (DP). Handling statistical heterogeneity requires investigating data preprocessing techniques, developing adaptive algorithms, and exploring approaches that explicitly model heterogeneity. By focusing on these challenges, researchers can advance the field of FL and enable its wider adoption in various domains and applications. The findings and recommendations of this study provide valuable insights for future research in FL.
Item Type: | Conference or Workshop Item (Paper) |
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Uncontrolled Keywords: | Federated learning, energy efficiency, privacy, statistical heterogeneity |
Subjects: | Q Science > QA Mathematics > QA71-90 Instruments and machines > QA75.5-76.95 Electronic computers. Computer science |
Divisions: | Faculty of Engineering (FOE) |
Depositing User: | Ms Nurul Iqtiani Ahmad |
Date Deposited: | 26 Apr 2024 03:20 |
Last Modified: | 26 Apr 2024 03:20 |
URII: | http://shdl.mmu.edu.my/id/eprint/12375 |
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