Federated Learning as a Service for Hierarchical Edge Networks with Heterogeneous Models

TL;DR

This paper introduces HAF-Edge, a novel hierarchical federated learning framework that efficiently aggregates heterogeneous models across IoT, edge, and cloud layers, improving convergence in non-IID data scenarios.

Contribution

It proposes a communication-efficient heterogeneous model aggregation method for hierarchical FL systems, addressing resource disparities and non-IID data challenges.

Findings

HAF-Edge outperforms existing methods in convergence speed.

The framework effectively handles heterogeneous models in hierarchical networks.

Experimental results validate the superior performance of HAF-Edge.

Abstract

Federated learning (FL) is a distributed Machine Learning (ML) framework that is capable of training a new global model by aggregating clients' locally trained models without sharing users' original data. Federated learning as a service (FLaaS) offers a privacy-preserving approach for training machine learning models on devices with various computational resources. Most proposed FL-based methods train the same model in all client devices regardless of their computational resources. However, in practical Internet of Things (IoT) scenarios, IoT devices with limited computational resources may not be capable of training models that client devices with greater hardware performance hosted. Most of the existing FL frameworks that aim to solve the problem of aggregating heterogeneous models are designed for Independent and Identical Distributed (IID) data, which may make it hard to reach the target algorithm performance when encountering non-IID scenarios. To address these problems in hierarchical networks, in this paper, we propose a heterogeneous aggregation framework for hierarchical edge systems called HAF-Edge. In our proposed framework, we introduce a communication-efficient model aggregation method designed for FL systems with two-level model aggregations running at the edge and cloud levels. This approach enhances the convergence rate of the global model by leveraging selective knowledge transfer during the aggregation of heterogeneous models. To the best of our knowledge, this work is pioneering in addressing the problem of aggregating heterogeneous models within hierarchical FL systems spanning IoT, edge, and cloud environments. We conducted extensive experiments to validate the performance of our proposed method. The evaluation results demonstrate that HAF-Edge significantly outperforms state-of-the-art methods.