AI-Enabled UAV Networks for 6G: A Paradigm Shift

Liang Wang; Wenshuai Cui; Qihao Peng; Zhiqiang Liu; Rugui Yao

doi:10.1109/MCOMSTD.2026.3676806

AI-Enabled UAV Networks for 6G: A Paradigm Shift

Liang Wang
, Wenshuai Cui
, Qihao Peng
, Zhiqiang Liu
, Rugui Yao

School of Cybersecurity

Northwestern Polytechnical University Xian
University of Surrey

Research output: Contribution to journal › Review article › peer-review

Abstract

Unmanned aerial vehicles (UAVs) are evolving from remotely controlled platforms to autonomous agents that extend the aerial layer of future 6G networks. This evolution is enabled by an integrated AI framework in which deep reinforcement learning (DRL) supports decision making, while graph neural networks (GNNs) capture dynamic network connectivity. Compared with conventional methods, AI-based approaches are more suitable for dynamic UAV environments with changing topology, interference, and security conditions. This article reviews recent progress in AI-enabled UAV networks, with an emphasis on the roles of DRL and GNNs in resource management and security. We also outline several open challenges, including multi-objective decision making, multi-UAV coordination, and hierarchical AI framework in space-air-ground integrated networks (SAGINs), and highlight future directions toward secure and intelligent UAV networks for 6G.

Original language	English
Journal	IEEE Communications Standards Magazine
DOIs	https://doi.org/10.1109/MCOMSTD.2026.3676806
State	Accepted/In press - 2026

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title = "AI-Enabled UAV Networks for 6G: A Paradigm Shift",

abstract = "Unmanned aerial vehicles (UAVs) are evolving from remotely controlled platforms to autonomous agents that extend the aerial layer of future 6G networks. This evolution is enabled by an integrated AI framework in which deep reinforcement learning (DRL) supports decision making, while graph neural networks (GNNs) capture dynamic network connectivity. Compared with conventional methods, AI-based approaches are more suitable for dynamic UAV environments with changing topology, interference, and security conditions. This article reviews recent progress in AI-enabled UAV networks, with an emphasis on the roles of DRL and GNNs in resource management and security. We also outline several open challenges, including multi-objective decision making, multi-UAV coordination, and hierarchical AI framework in space-air-ground integrated networks (SAGINs), and highlight future directions toward secure and intelligent UAV networks for 6G.",

author = "Liang Wang and Wenshuai Cui and Qihao Peng and Zhiqiang Liu and Rugui Yao",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.",

year = "2026",

doi = "10.1109/MCOMSTD.2026.3676806",

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T1 - AI-Enabled UAV Networks for 6G

T2 - A Paradigm Shift

AU - Wang, Liang

AU - Cui, Wenshuai

AU - Peng, Qihao

AU - Liu, Zhiqiang

AU - Yao, Rugui

PY - 2026

Y1 - 2026

N2 - Unmanned aerial vehicles (UAVs) are evolving from remotely controlled platforms to autonomous agents that extend the aerial layer of future 6G networks. This evolution is enabled by an integrated AI framework in which deep reinforcement learning (DRL) supports decision making, while graph neural networks (GNNs) capture dynamic network connectivity. Compared with conventional methods, AI-based approaches are more suitable for dynamic UAV environments with changing topology, interference, and security conditions. This article reviews recent progress in AI-enabled UAV networks, with an emphasis on the roles of DRL and GNNs in resource management and security. We also outline several open challenges, including multi-objective decision making, multi-UAV coordination, and hierarchical AI framework in space-air-ground integrated networks (SAGINs), and highlight future directions toward secure and intelligent UAV networks for 6G.

AB - Unmanned aerial vehicles (UAVs) are evolving from remotely controlled platforms to autonomous agents that extend the aerial layer of future 6G networks. This evolution is enabled by an integrated AI framework in which deep reinforcement learning (DRL) supports decision making, while graph neural networks (GNNs) capture dynamic network connectivity. Compared with conventional methods, AI-based approaches are more suitable for dynamic UAV environments with changing topology, interference, and security conditions. This article reviews recent progress in AI-enabled UAV networks, with an emphasis on the roles of DRL and GNNs in resource management and security. We also outline several open challenges, including multi-objective decision making, multi-UAV coordination, and hierarchical AI framework in space-air-ground integrated networks (SAGINs), and highlight future directions toward secure and intelligent UAV networks for 6G.

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DO - 10.1109/MCOMSTD.2026.3676806

M3 - 文献综述

AN - SCOPUS:105036431246

SN - 2471-2825

JO - IEEE Communications Standards Magazine

JF - IEEE Communications Standards Magazine

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AI-Enabled UAV Networks for 6G: A Paradigm Shift

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