With the proliferation of distributed edge computing resources, the 6G mobile network will evolve into a network for connected intelligence. Along this line, the proposal to incorporate federated learning into the mobile edge has gained considerable interest in recent years. However, the deployment of federated learning faces substantial challenges as massive resource-limited IoT devices can hardly support on-device model training. This leads to the emergence of split learning (SL) which enables servers to handle the major training workload while still enhancing data privacy. In this article, we offer a brief overview of key advancements in SL and articulate its seamless integration with wireless edge networks. We begin by illustrating the tailored 6G architecture to support edge SL. Then, we examine the critical design issues for edge SL, including innovative resource-efficient learning frameworks and resource management strategies under a single edge server. Additionally, we expand the scope to multi-edge scenarios, exploring multi-edge collaboration and mobility management from a networking perspective. Finally, we discuss open problems for edge SL, including convergence analysis, asynchronous SL and U-shaped SL.

翻译：随着分布式边缘计算资源的普及，6G移动网络将演变为连接智能的网络。沿着这一方向，近年来将联邦学习融入移动边缘的提议引起了广泛关注。然而，联邦学习的部署面临巨大挑战，因为海量资源受限的物联网设备难以支持设备端模型训练。这促使了分割学习（SL）的出现，它使服务器能够处理主要训练负载，同时增强数据隐私。本文简要概述了SL的关键进展，并阐述了其与无线边缘网络的无缝集成。我们首先描述了支持边缘SL的定制化6G架构。随后，考察了边缘SL的关键设计问题，包括单一边缘服务器下的创新资源高效学习框架和资源管理策略。此外，我们将范围扩展至多边缘场景，从网络角度探索多边缘协作与移动性管理。最后，讨论了边缘SL的开放性问题，包括收敛性分析、异步SL和U型SL。