Document detail
ID

oai:arXiv.org:2405.18707

Topic
Computer Science - Machine Learnin... Computer Science - Artificial Inte... Computer Science - Networking and ...
Author
Qiang, Xianke Chang, Zheng Hu, Yun Liu, Lei Hamalainen, Timo
Category

Computer Science

Year

2024

listing date

6/5/2024

Keywords
intelligence sl asfv fl vehicle model edge training
Metrics

Abstract

Vehicular edge intelligence (VEI) is a promising paradigm for enabling future intelligent transportation systems by accommodating artificial intelligence (AI) at the vehicular edge computing (VEC) system.

Federated learning (FL) stands as one of the fundamental technologies facilitating collaborative model training locally and aggregation, while safeguarding the privacy of vehicle data in VEI.

However, traditional FL faces challenges in adapting to vehicle heterogeneity, training large models on resource-constrained vehicles, and remaining susceptible to model weight privacy leakage.

Meanwhile, split learning (SL) is proposed as a promising collaborative learning framework which can mitigate the risk of model wights leakage, and release the training workload on vehicles.

SL sequentially trains a model between a vehicle and an edge cloud (EC) by dividing the entire model into a vehicle-side model and an EC-side model at a given cut layer.

In this work, we combine the advantages of SL and FL to develop an Adaptive Split Federated Learning scheme for Vehicular Edge Computing (ASFV).

The ASFV scheme adaptively splits the model and parallelizes the training process, taking into account mobile vehicle selection and resource allocation.

Our extensive simulations, conducted on non-independent and identically distributed data, demonstrate that the proposed ASFV solution significantly reduces training latency compared to existing benchmarks, while adapting to network dynamics and vehicles' mobility.

Qiang, Xianke,Chang, Zheng,Hu, Yun,Liu, Lei,Hamalainen, Timo, 2024, Adaptive and Parallel Split Federated Learning in Vehicular Edge Computing

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