李海明现为南京邮电大学副教授，2011-2015年于南京航空航天大学获通信与信息系统博士学位，2015-2016年赴加州大学尔湾分校（UCI）开展访问学者交流，2017年入职南京邮电大学任教至今。长期专注于反无人机通信系统、人工智能通信算法、无线通信建模与OTA测试、天线及射频器件设计等方向研究，主持国家自然科学基金、江苏省自然科学基金及多项横向项目，在国际权威期刊发表多篇SCI论文，并与加州大学尔湾分校、国内科研院所及华为、中兴等企业保持紧密合作。所培养学生注重理论与实践结合，毕业生年均1-2人入职华为，1-2人进入中国移动/电信，其余多任职于科研院所及国防单位。现招收通信与信息系统、人工智能算法、无线通信技术方向研究生，要求具备通信工程或电子信息专业背景，科研热情，课题组提供丰富科研资源、企业合作项目及国际化平台，欢迎有志学子加入。

反无人机通信系统研究、人工智能通信算法、无线通信建模、OTA测试、天线和射频器件研究。

1.国家自然科学基金 1项

2.省科学基金 1项

3.国家重点实验室开放课题1项

4.横向项目6项

论文：

1. Li, Hai, ming, et al. "Electromagnetically induced transparency with large group index induced by simultaneously exciting the electric and the magnetic resonance." Applied Physics Letters 105. 13 (2014): 133514. （引用33次）

2. Li, Hai, ming, et al. "Low-loss metamaterial electromagnetically induced transparency based on electric toroidal dipolar response." Applied Physics Letters 106. 8 (2015): 083511.（引用66次）

3. Li, Hai, ming, et al. "Electromagnetically induced transparency with large delay-bandwidth product induced by magnetic resonance near field coupling to electric resonance." Applied Physics Letters 106. 11 (2015): 114101.（引用48次）

4. Li, Hai, ming, et al.  "Tailoring electromagnetically induced transparency with different coupling mechanisms." Scientific Reports 6(2016): 1-8.

5. Li, Hai, ming, et al. "Comparing Q-factor of electromagnetically induced transparency based on different space distribution quasi-dark mode resonator." Journal of Applied Physics 122. 4 (2017): 044501.

6. Li, Hai, ming, et al. "Tailoring polarization of electromagnetically induced transparency based on non-centrosymmetric metasurfaces." Physics Letters A 381. 35 (2017): 3000-3004.

7. Li, Hai, ming. "Polarization-insensitive electromagnetically induced transparency based on ultra-thin coupling planar metamaterials." Optical Materials Express 8. 2 (2018): 348-355.

8. Li, Hai, Ming, et al. "Two transmission window plasmonically induced transparency with hybrid coupling mechanism." Optical Materials Express 9. 5 (2019): 2107-2116.

9. Li, Hai, Ming, et al.  A low-loss, polarization-insensitive and tunable electromagnetically induced transparency[J].Optical and Quantum Electronics, 2021, 53(11):1-11.

9. Li, Hai, Ming, et al. "Thinned linear array using joint optimization of IWDO/FFT algorithm." Journal of Electromagnetic Waves and Applications 35.18 (2021): 2480-2491.

10. Li, Hai, Ming, et al. "Actively tunable electromagnetically induced transparency on the solid-state plasma metamaterial." Optical Engineering 61.8 (2022): 087105-087105.

12. Li, Haiming, et al. "An actively tunable multifrequency electromagnetically induced transparency in a terahertz metamaterial." Optical and Quantum Electronics 55.3 (2023): 198.

13. 李海明、李志航、张伟，基于粒子群和聚类算法的球面近场采样策略，微波学报已接收