Elbir, Ahmet M.Coleri, Sinem2021-12-012021-12-0120201089-77981558-2558https://doi.org/10.1109/LCOMM.2020.3019312https://hdl.handle.net/20.500.12684/10419Machine learning for hybrid beamforming has been extensively studied by using centralized machine learning (CML) techniques, which require the training of a global model with a large dataset collected from the users. However, the transmission of the whole dataset between the users and the base station (BS) is computationally prohibitive due to limited communication bandwidth and privacy concerns. In this work, we introduce a federated learning (FL) based framework for hybrid beamforming, where the model training is performed at the BS by collecting only the gradients from the users. We design a convolutional neural network, in which the input is the channel data, yielding the analog beamformers at the output. Via numerical simulations, FL is demonstrated to be more tolerant to the imperfections and corruptions in the channel data as well as having less transmission overhead than CML.en10.1109/LCOMM.2020.3019312info:eu-repo/semantics/openAccessTrainingArray signal processingArtificial neural networksRadio frequencyMIMO communicationComputational modelingUnmanned aerial vehiclesDeep learningfederated learninghybrid beamformingmassive MIMODesignArticle2412279527992-s2.0-85097797840WOS:000597750400030Q1Q2