High stable and accurate vehicle selection scheme based on federated edge learning in vehicular networks

Qiong Wu, Xiaobo Wang, Qiang Fan, Pingyi Fan, Cui Zhang, Zhengquan Li

Federated edge learning (FEEL) technology for vehicular networks is considered as a promising technology to reduce the computation workload while keep the privacy of users. In the FEEL system, vehicles upload data to the edge servers, which train the vehicles' data to update local models and then return the result to vehicles to avoid sharing the original data. However, the cache queue in the edge is limited and the channel between edge server and each vehicle is a time varying wireless channel, which makes a challenge to select a suitable number of vehicles to upload data to keep a stable cache queue in edge server and maximize the learning accuracy. Moreover, selecting vehicles with different resource statuses to update data will affect the total amount of data involved in training, which further affects the model accuracy. In this paper, we propose a vehicle selection scheme, which maximizes the learning accuracy while ensuring the stability of the cache queue, where the statuses of all the vehicles in the coverage of edge server are taken into account. The performance of this scheme is evaluated through simulation experiments, which indicates that our proposed scheme can perform better than the known benchmark scheme.

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