Federated learning in mobile edge networks : a comprehensive survey
In recent years, mobile devices are equipped with increasingly advanced sensing and computing capabilities. Coupled with advancements in Deep Learning (DL), this opens up countless possibilities for meaningful applications, e.g., for medical purposes and in vehicular networks. Traditional cloud-base...
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Engineering::Computer science and engineering Federated Learning Mobile Edge Networks |
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Engineering::Computer science and engineering Federated Learning Mobile Edge Networks Lim, Bryan Wei Yang Luong, Nguyen Cong Hoang, Dinh Thai Jiao, Yutao Liang, Ying-Chang Yang, Qiang Niyato, Dusit Miao, Chunyan Federated learning in mobile edge networks : a comprehensive survey |
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In recent years, mobile devices are equipped with increasingly advanced sensing and computing capabilities. Coupled with advancements in Deep Learning (DL), this opens up countless possibilities for meaningful applications, e.g., for medical purposes and in vehicular networks. Traditional cloud-based Machine Learning (ML) approaches require the data to be centralized in a cloud server or data center. However, this results in critical issues related to unacceptable latency and communication inefficiency. To this end, Mobile Edge Computing (MEC) has been proposed to bring intelligence closer to the edge, where data is produced. However, conventional enabling technologies for ML at mobile edge networks still require personal data to be shared with external parties, e.g., edge servers. Recently, in light of increasingly stringent data privacy legislations and growing privacy concerns, the concept of Federated Learning (FL) has been introduced. In FL, end devices use their local data to train an ML model required by the server. The end devices then send the model updates rather than raw data to the server for aggregation. FL can serve as an enabling technology in mobile edge networks since it enables the collaborative training of an ML model and also enables DL for mobile edge network optimization. However, in a large-scale and complex mobile edge network, heterogeneous devices with varying constraints are involved. This raises challenges of communication costs, resource allocation, and privacy and security in the implementation of FL at scale. In this survey, we begin with an introduction to the background and fundamentals of FL. Then, we highlight the aforementioned challenges of FL implementation and review existing solutions. Furthermore, we present the applications of FL for mobile edge network optimization. Finally, we discuss the important challenges and future research directions in FL. |
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School of Computer Science and Engineering |
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School of Computer Science and Engineering Lim, Bryan Wei Yang Luong, Nguyen Cong Hoang, Dinh Thai Jiao, Yutao Liang, Ying-Chang Yang, Qiang Niyato, Dusit Miao, Chunyan |
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Article |
| author |
Lim, Bryan Wei Yang Luong, Nguyen Cong Hoang, Dinh Thai Jiao, Yutao Liang, Ying-Chang Yang, Qiang Niyato, Dusit Miao, Chunyan |
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Lim, Bryan Wei Yang |
| title |
Federated learning in mobile edge networks : a comprehensive survey |
| title_short |
Federated learning in mobile edge networks : a comprehensive survey |
| title_full |
Federated learning in mobile edge networks : a comprehensive survey |
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Federated learning in mobile edge networks : a comprehensive survey |
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Federated learning in mobile edge networks : a comprehensive survey |
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federated learning in mobile edge networks : a comprehensive survey |
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2020 |
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https://hdl.handle.net/10356/144291 |
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sg-ntu-dr.10356-1442912020-10-27T03:03:14Z Federated learning in mobile edge networks : a comprehensive survey Lim, Bryan Wei Yang Luong, Nguyen Cong Hoang, Dinh Thai Jiao, Yutao Liang, Ying-Chang Yang, Qiang Niyato, Dusit Miao, Chunyan School of Computer Science and Engineering Engineering::Computer science and engineering Federated Learning Mobile Edge Networks In recent years, mobile devices are equipped with increasingly advanced sensing and computing capabilities. Coupled with advancements in Deep Learning (DL), this opens up countless possibilities for meaningful applications, e.g., for medical purposes and in vehicular networks. Traditional cloud-based Machine Learning (ML) approaches require the data to be centralized in a cloud server or data center. However, this results in critical issues related to unacceptable latency and communication inefficiency. To this end, Mobile Edge Computing (MEC) has been proposed to bring intelligence closer to the edge, where data is produced. However, conventional enabling technologies for ML at mobile edge networks still require personal data to be shared with external parties, e.g., edge servers. Recently, in light of increasingly stringent data privacy legislations and growing privacy concerns, the concept of Federated Learning (FL) has been introduced. In FL, end devices use their local data to train an ML model required by the server. The end devices then send the model updates rather than raw data to the server for aggregation. FL can serve as an enabling technology in mobile edge networks since it enables the collaborative training of an ML model and also enables DL for mobile edge network optimization. However, in a large-scale and complex mobile edge network, heterogeneous devices with varying constraints are involved. This raises challenges of communication costs, resource allocation, and privacy and security in the implementation of FL at scale. In this survey, we begin with an introduction to the background and fundamentals of FL. Then, we highlight the aforementioned challenges of FL implementation and review existing solutions. Furthermore, we present the applications of FL for mobile edge network optimization. Finally, we discuss the important challenges and future research directions in FL. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Research Foundation (NRF) Accepted version This research is supported, in part, by the National Research Foundation (NRF), Singapore, under Singapore Energy Market Authority (EMA), Energy Resilience, NRF2017EWTEP003- 041, Singapore NRF2015-NRF-ISF001-2277, Singapore NRF National Satellite of Excellence, Design Science and Technology for Secure Critical Infrastructure NSoE DeSTSCI2019- 0007, A*STAR-NTU-SUTD Joint Research Grant Call on Artificial Intelligence for the Future of Manufacturing RGANS1906, WASP/NTU M4082187 (4080), Singapore MOE Tier 2 MOE2014-T2-2-015 ARC4/15, MOE Tier 1 2017-T1-002-007 RG122/17, AI Singapore Programme AISG-GC-2019-003, NRF-NRFI05-2019-0002. This research is also supported, in part, by the Alibaba-NTU Singapore Joint Research Institute (Alibaba-NTU-AIR2019B1), Nanyang Technological University, Singapore. In addition, this research is funded by Vietnam National Foundation for Science and Technology Development (NAFOSTED) under grant number 102.02-2019.305. The work of Y.-C. Liang was supported by the National Natural Science Foundation of China under Grants 61631005 and U1801261, the National Key R&D Program of China under Grant 2018YFB1801105, and the 111 Project under Grant B20064. Qiang Yang also thanks the support of Hong Kong CERG grants 16209715 and 16244616. 2020-10-27T03:03:14Z 2020-10-27T03:03:14Z 2020 Journal Article Lim, B. W. Y., Luong, N. C., Hoang, D. T., Jiao, Y., Liang, Y.-C., Yang, Q., ... Miao, C. (2020). Federated learning in mobile edge networks : a comprehensive survey. IEEE Communications Surveys and Tutorials, 22(3), 2031-2063. doi:10.1109/COMST.2020.2986024 1553-877X https://hdl.handle.net/10356/144291 10.1109/COMST.2020.2986024 3 22 2031 2063 en IEEE Communications Surveys & Tutorials © 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: https://doi.org/10.1109/COMST.2020.2986024 application/pdf |