Robust asynchronous federated learning with time-weighted and stale model aggregation
Federated Learning (FL) ensures collaborative learning among multiple clients while maintaining data locally. However, the traditional synchronous FL solutions have lower accuracy and require more communication time in scenarios where most devices drop out during learning. Therefore, we propose an A...
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Institutional Knowledge at Singapore Management University
2024
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sg-smu-ink.sis_research-106772024-11-28T09:14:50Z Robust asynchronous federated learning with time-weighted and stale model aggregation MIAO, Yinbin LIU, Ziteng LI, Xinghua LI, Meng LI, Hongwei CHOO, Kim-Kwang Raymond DENG, Robert H. Federated Learning (FL) ensures collaborative learning among multiple clients while maintaining data locally. However, the traditional synchronous FL solutions have lower accuracy and require more communication time in scenarios where most devices drop out during learning. Therefore, we propose an Asynchronous Federated Learning (AsyFL) scheme using time-weighted and stale model aggregation, which effectively solves the problem of poor model performance due to the heterogeneity of devices. Then, we integrate Symmetric Homomorphic Encryption (SHE) into AsyFL to propose Asynchronous Privacy-Preserving Federated Learning (Asy-PPFL), which protects the privacy of clients and achieves lightweight computing. Privacy analysis shows that Asy-PPFL is indistinguishable under Known Plaintext Attack (KPA) and convergence analysis proves the effectiveness of our schemes. A large number of experiments show that AsyFL and Asy-PPFL can achieve the highest accuracy of 58.40% and 58.26% on Cifar-10 dataset when most clients (i.e., 80%) are offline or delayed, respectively. 2024-08-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/9677 info:doi/10.1109/TDSC.2023.3304788 https://ink.library.smu.edu.sg/context/sis_research/article/10677/viewcontent/Robust_Asynchronous_Federated_Learning_With_Time_Weighted_and_Stale_Model_Aggregation.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Computational modelling Convergence Federated learning Heterogeneity Homomorphic encryptions Homomorphic-encryptions Lightweight computing Privacy Symmetric homomorphic encryption Symmetrics Databases and Information Systems Theory and Algorithms |
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Computational modelling Convergence Federated learning Heterogeneity Homomorphic encryptions Homomorphic-encryptions Lightweight computing Privacy Symmetric homomorphic encryption Symmetrics Databases and Information Systems Theory and Algorithms |
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Computational modelling Convergence Federated learning Heterogeneity Homomorphic encryptions Homomorphic-encryptions Lightweight computing Privacy Symmetric homomorphic encryption Symmetrics Databases and Information Systems Theory and Algorithms MIAO, Yinbin LIU, Ziteng LI, Xinghua LI, Meng LI, Hongwei CHOO, Kim-Kwang Raymond DENG, Robert H. Robust asynchronous federated learning with time-weighted and stale model aggregation |
| description |
Federated Learning (FL) ensures collaborative learning among multiple clients while maintaining data locally. However, the traditional synchronous FL solutions have lower accuracy and require more communication time in scenarios where most devices drop out during learning. Therefore, we propose an Asynchronous Federated Learning (AsyFL) scheme using time-weighted and stale model aggregation, which effectively solves the problem of poor model performance due to the heterogeneity of devices. Then, we integrate Symmetric Homomorphic Encryption (SHE) into AsyFL to propose Asynchronous Privacy-Preserving Federated Learning (Asy-PPFL), which protects the privacy of clients and achieves lightweight computing. Privacy analysis shows that Asy-PPFL is indistinguishable under Known Plaintext Attack (KPA) and convergence analysis proves the effectiveness of our schemes. A large number of experiments show that AsyFL and Asy-PPFL can achieve the highest accuracy of 58.40% and 58.26% on Cifar-10 dataset when most clients (i.e., 80%) are offline or delayed, respectively. |
| format |
text |
| author |
MIAO, Yinbin LIU, Ziteng LI, Xinghua LI, Meng LI, Hongwei CHOO, Kim-Kwang Raymond DENG, Robert H. |
| author_facet |
MIAO, Yinbin LIU, Ziteng LI, Xinghua LI, Meng LI, Hongwei CHOO, Kim-Kwang Raymond DENG, Robert H. |
| author_sort |
MIAO, Yinbin |
| title |
Robust asynchronous federated learning with time-weighted and stale model aggregation |
| title_short |
Robust asynchronous federated learning with time-weighted and stale model aggregation |
| title_full |
Robust asynchronous federated learning with time-weighted and stale model aggregation |
| title_fullStr |
Robust asynchronous federated learning with time-weighted and stale model aggregation |
| title_full_unstemmed |
Robust asynchronous federated learning with time-weighted and stale model aggregation |
| title_sort |
robust asynchronous federated learning with time-weighted and stale model aggregation |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2024 |
| url |
https://ink.library.smu.edu.sg/sis_research/9677 https://ink.library.smu.edu.sg/context/sis_research/article/10677/viewcontent/Robust_Asynchronous_Federated_Learning_With_Time_Weighted_and_Stale_Model_Aggregation.pdf |
| _version_ |
1819113100141395968 |