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Main Authors: Nguyen, Loc X., Yoon, Ji Su, Le, Huy Q., Qiao, Yu, Raha, Avi Deb, Huh, Eui-Nam, Tran, Nguyen H., Han, Zhu, Hong, Choong Seon
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.09141
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author Nguyen, Loc X.
Yoon, Ji Su
Le, Huy Q.
Qiao, Yu
Raha, Avi Deb
Huh, Eui-Nam
Tran, Nguyen H.
Han, Zhu
Hong, Choong Seon
author_facet Nguyen, Loc X.
Yoon, Ji Su
Le, Huy Q.
Qiao, Yu
Raha, Avi Deb
Huh, Eui-Nam
Tran, Nguyen H.
Han, Zhu
Hong, Choong Seon
contents The shift toward user-customized on-device learning places new demands on wireless systems: models must be trained on diverse, distributed data while meeting strict latency, bandwidth, and reliability constraints. To address this, we propose an Agentic AI as the control layer for managing federated learning (FL) over 6G networks, which translates high-level task goals into actions that are aware of network conditions. Rather than simply viewing FL as a learning challenge, our system sees it as a combined task of learning and network management. A set of specialized agents focused on retrieval, planning, coding, and evaluation utilizes monitoring tools and optimization methods to handle client selection, incentive structuring, scheduling, resource allocation, adaptive local training, and code generation. The use of closed-loop evaluation and memory allows the system to consistently refine its decisions, taking into account varying signal-to-noise ratios, bandwidth conditions, and device capabilities. Finally, our case study has demonstrated the effectiveness of the Agentic AI system's use of tools for achieving high performance.
format Preprint
id arxiv_https___arxiv_org_abs_2603_09141
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Agentic AI as a Network Control-Plane Intelligence Layer for Federated Learning over 6G
Nguyen, Loc X.
Yoon, Ji Su
Le, Huy Q.
Qiao, Yu
Raha, Avi Deb
Huh, Eui-Nam
Tran, Nguyen H.
Han, Zhu
Hong, Choong Seon
Computer Vision and Pattern Recognition
The shift toward user-customized on-device learning places new demands on wireless systems: models must be trained on diverse, distributed data while meeting strict latency, bandwidth, and reliability constraints. To address this, we propose an Agentic AI as the control layer for managing federated learning (FL) over 6G networks, which translates high-level task goals into actions that are aware of network conditions. Rather than simply viewing FL as a learning challenge, our system sees it as a combined task of learning and network management. A set of specialized agents focused on retrieval, planning, coding, and evaluation utilizes monitoring tools and optimization methods to handle client selection, incentive structuring, scheduling, resource allocation, adaptive local training, and code generation. The use of closed-loop evaluation and memory allows the system to consistently refine its decisions, taking into account varying signal-to-noise ratios, bandwidth conditions, and device capabilities. Finally, our case study has demonstrated the effectiveness of the Agentic AI system's use of tools for achieving high performance.
title Agentic AI as a Network Control-Plane Intelligence Layer for Federated Learning over 6G
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2603.09141