2D Federated Learning for Personalized Human Activity Recognition in Cyber-Physical-Social Systems
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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en
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11
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IEEE Transactions on Network Science and Engineering, Volume 9, issue 6, pp. 3934-3944
Abstract
In this study, a 2-Dimensional Federated Learning (2DFL) framework, including the vertical and horizontal federated learning phases, is designed to cope with the insufficient training data and insecure data sharing issues in CPSS during a secure distributed learning process. Considering a specific application of Human Activity Recognition (HAR) across a variety of different devices from multiple individual users, the vertical federated learning scheme is developed to integrate shareable features from heterogeneous data across different devices into a full feature space, and the horizontal federated learning scheme is developed to effectively aggregate the encrypted local models among multiple individual users to achieve a high-quality global HAR model. A computationally efficient somewhat homomorphic encryption (SWHE) scheme is then improved and applied to support the parameter aggregation without giving access to it, which enables heterogeneous data sharing with privacy protection across different personal devices and multiple users in building a more precise personalized HAR model. Experiments are conducted based on two public datasets. Comparing with three conventional machine learning methods, evaluation results demonstrate the usefulness and effectiveness of our proposed model in achieving faster and smoother convergence, and better precision, recall, and F1 scores for HAR applications in CPSS.Description
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Zhou, X, Liang, W, Ma, J, Yan, Z & Wang, K I-K 2022, '2D Federated Learning for Personalized Human Activity Recognition in Cyber-Physical-Social Systems', IEEE Transactions on Network Science and Engineering, vol. 9, no. 6, pp. 3934-3944. https://doi.org/10.1109/TNSE.2022.3144699