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Dynamic Digital Twin and Federated Learning With Incentives for Air-Ground Networks

2020; Institute of Electrical and Electronics Engineers; Volume: 9; Issue: 1 Linguagem: Inglês

10.1109/tnse.2020.3048137

2334-329X

Wen Sun, Ning Xu, Lu Wang, Haibin Zhang, Yan Zhang,

UAV Applications and Optimization

The air-ground network provides users with seamless connections and real-time services, while its resource constraint triggers a paradigm shift from machine learning to federated learning. Federated learning enables clients to collaboratively train models without sharing data. Digital twins provide virtual representation of the air-ground networks to reflect the time-varying status, which in combination with federated learning reconcile the conflict between privacy protection and data training in air-ground networks. In this paper, we consider dynamic digital twin and federated learning for air-ground networks where a drone works as the aggregator and the ground clients collaboratively train the model based on the network dynamics captured by digital twins. We design incentives for federated learning based on Stackelberg game, in which the digital twin of the drone acts as the leader to set preferences for clients, and clients as follower choose the global training rounds. Furthermore, considering the varying digital twin deviations and network dynamics, we design a dynamic incentive scheme to adaptively adjust the selection of the optimal clients and their participation level. Numerical results show that the proposed schemes can significantly improve accuracy and energy efficiency.