Joint learning and optimization for Federated Learning in NOMA-based networks

Over the past decade, the usage of machine learning (ML) techniques have increased substantially in different applications. Federated Learning (FL) refers to collaborative techniques that avoid the exchange of raw data between the nodes in a distributed training task. This addresses important issues such as data privacy, energy consumption, and the limited availability of clean spectral slots. In this work, we investigate the performance of FL updates with edge devices connected to a leading device (LD) with practical wireless links, where uplink updates from the edge devices to the LD are shared without orthogonalizing the resources. In particular, we adopt a non-orthogonal multiple access (NOMA) uplink scheme, and analytically investigate its effect on the convergence round (CR) and the accuracy of the FL model. Moreover, we formulate an optimization problem that aims at minimizing the CR, and further guarantees communication fairness between the users while considering the per-device energy consumption figures and the accuracy of the realized global FL model. Monte-Carlo simulations prove the reliability of our derived analytical expressions and reveal the importance of adopting a joint optimization approach that demonstrates a significant reduction in communication latency, while taking into account user fairness in the NOMA network, improving the energy consumption figures and yielding acceptable accuracy levels when compared with several baselines.(c) 2022 Published by Elsevier B.V.

Automated summary

In the past decade, the usage of machine learning techniques has significantly increased in various applications. Federated Learning (FL) is a collaborative technique that addresses important issues such as data privacy, energy consumption, and limited availability of clean spectral slots. This work investigates the performance of FL updates with edge devices connected to a leading device (LD) using a non-orthogonal multiple access (NOMA) uplink scheme, and analyzes its effect on convergence round and accuracy of the FL model.