• • 超高速磁浮车地通信理论与关键技术研究 （上海科委面上项目，Aug. 2025-Aug. 2028，20万，主持）
• • 汽车以太网环网通信系统关键技术研究（小米汽车科技有限公司，Jun. 2025-Jul. 2026，20万，主持）
• • 面向中小企业的长三角特色产业研发创新与协同制造集成服务（重点研发子课题，Dec. 2024-Jan. 2027，40万，主持）
• • 高速磁浮车地通信关键技术比较及研究（教育部中央高校建设-交叉重点项目，Aug. 2024-Aug. 2026，50万，主持)
• •面向下一代移动通信和网络的传输理论和关键技术 (广东省基础与应用基础研究基金重点项目，Jul. 2022-Jul. 2025，100万，主持)
• • 面向物理层信号溯源攻击的匿名预编码对抗机制研究 (国家自然科学基金青年项目，Jan. 2022-Jan. 2024，30万，主持)
• • 基于“车路云”一体化系统的车路云融合关键技术研究 (上海汽车工业科技发展基金会，Jun. 2022-Dec. 2023, 50万，主持)
• • 基于匿名通信的边缘计算隐私保护研究 (移动通信技术重庆市重点实验室开放研究项目，Jan. 2022-Dec. 2023，6万，主持)
• • Exploiting Interference for Physical Layer Security in 5G Networks (有益干扰在5G物理层安全的理论与实现，英国工程与自然科学研究会EPSRC, Apr. 2018-Jan. 2021，£620k，参与)
• • MU-MIMO Enhancement by Constructive Interference Exploitation Precoding (多用户MIMO系统有益干扰预编码设计，HUAWEI中国华为, Sep. 2019- Sep. 2020，£200k，research co-Investigator）
• • High Energy-Efficient Ultra Dense Deployment in Millimeter Wave Communications (高能效毫米波超密度组网技术研，A*STAR新加坡科技研究局, Mar. 2016-Mar. 2017，S$ 12k，主持)

1. Z. Wei, C. Masouros, X. Zhu, P.Wang, and A. P. Petropulu, “PHY layer anonymous precoding: sender detectionperformance and diversity-multiplexing tradeoff,” IEEETrans. Wireless Commun., early access.

2. Z. Wei,C. Masouros, P. Wang, X. Zhu, H. Zeng, H. Tang, and Y. Zheng, “Beyondnon-orthogonal multiple access: new role of constructive interference,” IEEEWireless Commun. Lett., (IF: 5.281)

3. Z. Wei,C. Masouros, P. Wang, X. Zhu, J. Wang, and A. P. Athina, “Physical layeranonymous precoding design: from the perspective of anonymity entropy,” IEEE J. Sel. Areas Commun., vol. 40, no. 11, pp. 3224 – 3238, Nov.2022. (IF:13.081)

4. H. Zeng, J. Wang, Z. Wei*, X. Zhu, Y. Jiang, Y. Wang, and C. Masouros,“Multi-cluster coordination industrial Internet of Things: the ear of non-orthogonaltransmission,” IEEE Veh. Technol. Maga., (IF: 10.384)

5. Z. Wei, C.Masouros, N. Su, and A. P. Petropulu, “Towards multi-functional 6G wirelessnetworks: integrating sensing, communication and security,” IEEE Commum.Maga., vol. 60, issue.4, pp. 65-71, Apr. 2022. (IF: 9.619)

6. Y. Wang, X. Zhu*, E. Lim, Z.Wei*, Y. Jiang, and G. Liu, “Detection ofburst users and symbols for grant-free communication in the presence of massiveconnected users,” IEEE Trans. Veh. Technol., vol. 71, no. 7, pp. 7973-7978, Jul. 2022. (IF: 5.978)

7. Z. Wei, C. Masouros, H. V. Poor, A. P. Petropulu, and L. Hanzo,“Physical layer anonymous precoding: the path to privacy-preservingcommunications,’’ IEEE Wireless Commun.Mag. vol. 29, issue. 2, pp. 154-160, Apr. 2022.  (IF: 11.979)

8. Z. Wei,F. Liu, and C. Masouros, “Fundamentals of physical layer anonymouscommunications: sender detection and anonymous precoding,’’ IEEETrans. Wireless Commun.,vol. 21, no. 1, pp.64-79, Jan. 2022. (IF: 6.394)

9. Z. Wei, C. Masouros, and F. Liu, “Securedirectional modulation with few-bit phase shifters: optimal and iterative-closed-formdesigns,” IEEE Trans. Commun., vol.69, issue. 1, pp. 486-500, Jan. 2021. (IF: 5.646)

10. Z.Wei, C. Masouros, F. Liu, S. Chatzinotas, and B. Ottersten, “Energy- andcost-efficient physical layer security in the era of IoT: the role ofinterference,” IEEE Commun. Mag.,vol. 58, issue. 4, pp. 81-87, Apr. 2020. (IF: 10.356)

11. Z. Wei and C. Masouros, “Device-centricdistributed antenna transmission: secure precoding and antenna selection withinterference exploitation,” IEEE Internet ThingsJ., vol. 7, no. 3, pp. 2293-2308, Mar. 2020. (IF:9.515)

12. Z. Wei, C. Masouros, K. Wong, and X.Kang, “Multi-cell interference exploitation: enhancing the powerefficiency in cell coordination,” IEEE Trans. WirelessCommun., vol. 19, no. 1, pp. 547-562-1753, Oct. 2019.  (IF: 6.394)

13. Z. Wei, S. Sun, X.Zhu, and Y. Huang,“Resource allocation for wireless-powered full-duplex relaying systems withnonlinear energy harvesting efficiency,”IEEETrans. Veh. Technol., vol. 68, no. 12, pp. 12079 - 12093, Oct. 2019. (IF: 5.339)

14. Jingjing Wang, C. Jiang, Z.Wei, C. Pan, H. Zhang and Y.Ren, “Joint UAV hovering altitude and power control for space-air-groundthree-tier networks,” IEEE Internet Things J., vol. 62, no. 2, pp.1741-1753, Apr. 2019. (IF: 9.515)

15.Z. Wei, S. Sun, and X. Zhu, “Energy-efficient full-duplex cooperativenonorthogonal multiple access,” IEEE Trans. Veh. Technol., vol. 67, no. 10, pp. 10123 - 10128, Oct. 2018. (IF:5.339)

16. Z. Wei, S. Sun, X.Zhu, and Y. Huang, “Energy-efficient hybrid duplexing strategy formillimeter-wave bi-directional distributed antenna systems,” IEEE Trans. Veh. Technol., vol. 67, no. 6, pp.5096-5110, Apr. 2018. (IF:5.339)

17. Z. Wei,X. Zhu, S. Sun, and Y. Huang, “Energy efficiency oriented cross-layer resourceallocation for multiuser full-duplex decode-and-forward indoor relay systems at60 GHz,” IEEE J. Sel. Areas Commun.,vol. 34, no. 12, pp. 3366-3379, Dec. 2016. (IF: 9.302)

18. Z.Wei, X. Zhu, S. Sun, Y. Huang, L. Dong, and Y. Jiang, “Full-duplex vs. half-duplex amplify-and-forward relaying: which is moreenergy efficient in 60 GHz dual-hop indoor wireless systems?’’ IEEE J. Sel. Areas Commun., vol.33, no. 12, pp. 2936-2947, Dec. 2015. (IF: 9.302)