[15] 陕西省重点研发计划关键核心技术攻关重点项目课题,2025CG-GJHX-06,2025~,主持,在研;
[14] 西安交通大学青年拔尖人才支持计划,2024~,主持,在研;
[13] 广东省基础与应用基础研究青年提升项目,2024A1515030215,2024~,主持,在研;
[12] 陕西省重点研发计划项目,2023-YBGY-248,2023~,主持,结题;
[11] 通信抗干扰全国重点实验室(稳定支持)项目,IFN20230111,2023~,主持,结题;
[10] 智能博弈重点实验室创新工作站开放课题,ZBKF-24-04,2024~,主持,结题;
[9] 国家自然科学基金青年项目,61901378,2020~,主持,结题;
[8] 博士后创新人才支持计划,BX20190287,2019.09~,主持,结题;
[7] 国家自然科学基金专项项目课题,61941119,2020~,主持,结题;
[6] 某委某工程项目课题,XXX,2022~,主持,结题;
[5] 中国博士后科学基金面上项目,2020M683563,2020~,主持,结题;
[4] 移动通信国家重点实验室开放课题,2022D01,2022~,主持,结题;
[3] 国家重点研发计划课题,2020YFB1807003,2020~,参与;
[2] 某部委预研项目,XXX,2020~,参与;
[1] 陕西省重点研发计划重点产业链项目,2022ZDLGY05-07,2022~,参与;
Wireless AI 方向面向复杂无线网络中的高维状态、动态拓扑、时变信道、多用户干扰和多智能体交互问题,研究图神经网络、深度强化学习、扩散模型、算法展开网络和联邦学习等 AI 方法在无线通信系统中的应用。该方向的核心思路不是简单地“用 AI 求解通信问题”,而是把无线网络中的拓扑结构、信道演化、干扰耦合、优化迭代和安全约束嵌入学习模型,使智能算法具备更好的结构感知能力、泛化能力和可解释性。相关工作覆盖 UAV 安全通信、抗干扰通信、网络化空中计算、UAV AirComp、区块链辅助可信数据采集和生成式安全波束设计等问题,目标是在复杂、动态、非可信无线环境中实现可学习、可适应、可部署的智能通信机制。
代表性论文:
Xiao Tang, Xunqiang Lan, Lixin Li, Yan Zhang, Zhu Han, “Incentivizing Proof-of-Stake Blockchain for Secured Data Collection in UAV-Assisted IoT: A Multi-Agent Reinforcement Learning Approach,” IEEE Journal on Selected Areas in Communications, vol. 40, no. 12, pp. 3470–3484, 2022.
Xiao Tang, Kexin Zhao, Chao Shen, Qinghe Du, Yichen Wang, Dusit Niyato, Zhu Han, “Deep Graph Reinforcement Learning for UAV-Enabled Multi-User Secure Communications,” IEEE Transactions on Mobile Computing, vol. 24, no. 9, pp. 8780–8793, 2025.
Xiao Tang, Huirong Xiao, Chao Shen, Li Sun, Qinghe Du, Dusit Niyato, Zhu Han, “Unfolded Deep Graph Learning for Networked Over-the-Air Computation,” IEEE Transactions on Wireless Communications, vol. 24, no. 11, pp. 9296–9310, 2025.
Xunqiang Lan, Xiao Tang*, Ruonan Zhang, Qinghe Du, Tony Q.S. Quek, “Time-Slotted Multi-Cluster UAV AirComp with Energy-Awareness: A Pointer Network-Assisted Soft Actor-Critic Learning Framework,” IEEE Journal of Selected Topics in Signal Processing, online access, 2026.
Tong Hui, Xiao Tang*, Yichen Wang, Qinghe Du, Dusit Niyato, Zhu Han, “Channel-Aware Conditional Diffusion Model for Secure MU-MISO Communications,” IEEE Transactions on Vehicular Technology, online access, 2026.
空天地一体网络方向面向卫星、无人机、空中平台、地面基站、边缘节点和智能反射表面协同组成的未来网络,研究跨域通信、计算、安全和资源协同问题。该方向关注低空经济、无人机组网、卫星通信、空中 RIS、UAV edge computing、AirComp 和 integrated communication and computation 等典型场景,重点解决网络拓扑高度动态、空地链路快速变化、信道状态不确定、能量与计算资源受限、多平台协同困难等问题。相关工作通过鲁棒优化、图学习、强化学习和通信计算协同建模,探索空天地融合网络中的安全传输、轨迹规划、任务卸载、空中计算、联邦学习和资源管理机制,为低空智能服务和非地面网络中的高可靠通信计算提供支撑。
代表性论文:
Xiao Tang, Yudan Jiang, Ruonan Zhang, Qinghe Du, Jinxin Liu, Naijin Liu, “Energy-Efficient Integrated Communication and Computation via Non-Terrestrial Networks with Uncertainty Awareness,” IEEE Internet of Things Journal, vol. 12, no. 17, pp. 35165–35178, 2025.
Xiao Tang, Hongrui Zhang, Ruonan Zhang, Deyun Zhou, Yan Zhang, Zhu Han, “Robust Trajectory and Offloading for Energy-Efficient UAV Edge Computing in Industrial Internet of Things,” IEEE Transactions on Industrial Informatics, vol. 20, no. 1, pp. 38–49, 2024.
Zhaole Wang, Xiao Tang*, Naijin Liu, Jinxin Liu, Qinghe Du, Lei Chen, Tingwu Lin, “Distributionally Robust Physical-Layer Security for Satellite Communication via Aerial Reconfigurable Intelligent Surface,” IEEE Transactions on Communications, vol. 74, pp. 9729–9741, 2026.
Xunqiang Lan, Xiao Tang*, Ruonan Zhang, Bin Li, Yichen Wang, Dusit Niyato, Zhu Han, “UAV-Assisted Integrated Communication and Over-the-Air Computation with Interference Awareness,” IEEE Transactions on Communications, vol. 73, no. 11, pp. 10647–10661, 2025.
Chen Wang, Xiao Tang*, Zehui Xiong, Daosen Zhai, Ruonan Zhang, Dusit Niyato, Zhu Han, “UAV-Assisted Federated Learning with Robust Resource and Trajectory Optimization Under Location Uncertainties,” IEEE Transactions on Cognitive Communications and Networking, vol. 12, pp. 1282–1296, 2026.
无线信息安全方向面向开放、动态和非可信无线环境,研究物理层安全、抗干扰通信、主动窃听防御、RIS 辅助安全传输、无人机网络安全、低空网络安全和安全资源分配等问题。该方向强调从无线信道、网络结构和攻防对抗关系本身出发设计安全机制,而不仅仅依赖上层密码或静态防护。相关工作覆盖 full-duplex active eavesdropper、reactive jamming、Active RIS jamming mitigation、aerial RIS secure communications、UAV secure communications、satellite physical-layer security 和 secure MU-MISO communications 等场景,结合博弈论、鲁棒优化、图学习、深度强化学习和扩散模型,在窃听、干扰、信道不确定、非法接入和资源竞争等条件下提升无线系统的安全可靠服务能力。
代表性论文:
Xiao Tang, Zhen Ma, Limeng Dong, Yichen Wang, Qinghe Du, Dusit Niyato, Zhu Han, “Uncertainty-Aware Jamming Mitigation With Active RIS: A Robust Stackelberg Game Approach,” IEEE Transactions on Information Forensics and Security, vol. 21, pp. 2858–2872, 2026.
Xiao Tang, Zhen Ma, Bin Li, Cong Li, Qinghe Du, Dusit Niyato, Zhu Han, “Active RIS-Aided Anti-Jamming Wireless Communications: A Stackelberg Game Perspective,” IEEE Transactions on Communications, online access, 2025.
Xiao Tang, Kexin Zhao, Chao Shen, Chenhao Lin, Shuai Liu, Bohui Wang, Dusit Niyato, Zhu Han, “Graph Attention Network-Driven Hierarchical Learning for Anti-Jamming UAV Communications,” IEEE Transactions on Wireless Communications, vol. 25, pp. 5432–5445, 2026.
Zhaole Wang, Xiao Tang*, Naijin Liu, Jinxin Liu, Qinghe Du, Lei Chen, Tingwu Lin, “Distributionally Robust Physical-Layer Security for Satellite Communication via Aerial Reconfigurable Intelligent Surface,” IEEE Transactions on Communications, vol. 74, pp. 9729–9741, 2026.
Tong Hui, Xiao Tang*, Yichen Wang, Qinghe Du, Dusit Niyato, Zhu Han, “Channel-Aware Conditional Diffusion Model for Secure MU-MISO Communications,” IEEE Transactions on Vehicular Technology, online access, 2026.
博弈论与鲁棒优化方向面向无线网络中的竞争、对抗、不确定性和多主体决策问题,研究 Stackelberg game、hierarchical game、equilibrium program with equilibrium constraints、variational inequality、quasi-variational inequality、distributionally robust optimization 和 multi-agent learning 等理论方法。该方向既是无线信息安全研究的重要理论基础,也支撑无人机网络、RIS 通信、区块链网络、联邦学习和通信计算一体化中的资源管理与鲁棒决策。相关工作围绕主动窃听、恶意干扰、保密功率竞争、区块链挖矿资源竞争、卫星通信安全和不确定空地网络等问题,构建层次化攻防博弈与分布鲁棒优化框架,使系统在信道分布未知、干扰策略变化、位置误差和资源状态不确定条件下仍能获得稳定可靠的性能保障。
代表性论文:
Xiao Tang, Pinyi Ren, Zhu Han, “Hierarchical Competition as Equilibrium Program with Equilibrium Constraints Towards Security-Enhanced Wireless Networks,” IEEE Journal on Selected Areas in Communications, vol. 36, no. 7, pp. 1564–1578, 2018.
Xiao Tang, Zhen Ma, Limeng Dong, Yichen Wang, Qinghe Du, Dusit Niyato, Zhu Han, “Uncertainty-Aware Jamming Mitigation With Active RIS: A Robust Stackelberg Game Approach,” IEEE Transactions on Information Forensics and Security, vol. 21, pp. 2858–2872, 2026.
Xiao Tang, Ruonan Zhang, Wei Wang, Lin Cai, Zhu Han, “Robust Secrecy Competition with Aggregate Interference Constraint in Small-Cell Networks,” IEEE Transactions on Wireless Communications, vol. 20, no. 4, pp. 2325–2340, 2021.
Xunqiang Lan, Xiao Tang*, Ruonan Zhang, Bin Li, Qinghe Du, Dusit Niyato, Zhu Han, “Distributionally Robust Game for Proof-of-Work Blockchain Mining Under Resource Uncertainties,” IEEE Transactions on Information Forensics and Security, vol. 21, pp. 1036–1049, 2026.
Zhaole Wang, Xiao Tang*, Naijin Liu, Jinxin Liu, Qinghe Du, Lei Chen, Tingwu Lin, “Distributionally Robust Physical-Layer Security for Satellite Communication via Aerial Reconfigurable Intelligent Surface,” IEEE Transactions on Communications, vol. 74, pp. 9729–9741, 2026.
Sensors,Editor,2026—2028
《网络与信息安全学报》青年编委,2023—2027
《海军航空大学学报》青年编委,2024—2026
Symposium Co-Chair, International Wireless Communications and Mobile Computing Conference, IWCMC 2026
Workshop Co-Chair, International Conference on Cyber-physical Social Intelligence, ICCSI 2024 / 2025
Workshop Co-Chair, IEEE Vehicular Technology Conference, VTC 2020 / 2023
Workshop Co-Chair, IEEE International Performance, Computing, and Communications Conference, IPCCC 2022
Workshop Co-Chair, IEEE International Conference on High Performance Switching and Routing, HPSR 2019
2026年空天科技应用于实践创新研讨会, 山西太原, “空地无线网络可泛化智能通信”
IEEE International Conference on Communications, Circuits and Systems, ICCCAS 2025, Wuhan, “Intelligent UAV Communications: Graph-Based Learning Approaches for Enhanced Security”
International Conference on Electronic Communications Engineering, ICECE 2025, Xi’an, “Graph Reinforcement Learning Enabled Security Enhancement for UAV Communication Networks”
IEEE ICC,2024—2026
IEEE WCNC,2024—2026
IEEE PIMRC,2024 / 2025
IEEE GLOBECOM,2021—2023
IEEE VTC,2020,2022—2024
IEEE / CIC ICCC,2017,2018,2021—2025