Prof. Liu Chengguo | Radiowave Propagation | Best Researcher Award

Prof. Liu Chengguo , Wuhan University of Technology , China.

Liu Chengguo is a distinguished professor at Wuhan University of Technology with extensive expertise in radio physics and radiowave propagation. He earned his Ph.D. from Xidian University (2003), a Master’s degree in Atomic and Molecular Physics from Chengdu University of Science and Technology (1991), and a Bachelor’s degree in Physics from Henan University (1988). With over two decades of academic and research experience, he has served as a senior engineer at the China Research Institute of Radiowave Propagation and contributed significantly to physics research. He has undertaken postdoctoral studies at both Wuhan University of Technology and Ordnance Engineering College. 🧠🏆

Publication Profile

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Education and Experience 🎓🔍

✅ Ph.D. in Radio Physics: Xidian University, 1999–2003
✅ Master’s in Atomic and Molecular Physics: Chengdu University of Science and Technology, 1988–1991
✅ Bachelor’s in Physics: Henan University, 1984–1988

🧪 Postdoctoral Research:

• Ordnance Engineering College, PLA (2010–2013)

• Wuhan University of Technology (2005–2007)

🏫 Academic and Research Positions:

• Professor, Department of Physics, Wuhan University of Technology (2005–present)

• Associate Professor, Department of Physics, Wuhan University of Technology (2004–2005)

• Senior Engineer, China Research Institute of Radiowave Propagation, Qingdao Branch (2002–2004)

• Engineer, Senior Engineer, China Research Institute of Radiowave Propagation (1991–2002)

Suitability Summary

Best Researcher Award celebrates outstanding contributions to research excellence, innovation, and knowledge advancement. Liu Chengguo, a Professor at Wuhan University of Technology, is an exemplary candidate for this award, with a distinguished career spanning over three decades in radio physics, microwave technology, and electromagnetic wave propagation.

Professional Development 📚⚡

Prof. Liu Chengguo has demonstrated a remarkable commitment to continuous professional growth, advancing from engineering roles to academia. His postdoctoral research at Ordnance Engineering College (2010–2013) explored advanced military communication systems, while his postdoctoral work at Wuhan University of Technology (2005–2007) refined his expertise in radiowave propagation. As a professor, he has mentored numerous students, contributed to cutting-edge research, and led various national projects. His seamless transition between academia and industry has enabled him to apply practical insights to theoretical advancements, fostering innovation and knowledge dissemination in his field. 🧠🌐

Research Focus 🎯📡

Liu Chengguo’s research primarily revolves around radiowave propagation, electromagnetic wave theory, and applied radio physics. His work explores the development of propagation models for complex environments, optimization of communication systems, and military applications involving electromagnetic wave interactions. He has contributed to enhancing signal propagation in challenging terrains and advancing secure communication technologies. His research has profound applications in remote sensing, defense communication, and aerospace technology, ensuring reliable and efficient information transfer in dynamic environments. 📡🛰️

Awards and Honors 🏆🎖️

🌟 Outstanding Contribution Award – Wuhan University of Technology, 2020
🌟 Excellent Research Award – China Research Institute of Radiowave Propagation, 2018
🌟 Best Paper Award – National Conference on Radio Wave Propagation, 2016
🌟 Scientific Excellence Award – PLA Ordnance Engineering College, 2013
🌟 Top Educator Recognition – Wuhan University of Technology, 2011

Publication Top Notes

1. A Novel Frequency-Selective Polarization Converter and Application in RCS Reduction

• 📅 Publication Date: 2025-03-24

• 📄 Journal: Electronics

• 🔗 DOI: 10.3390/electronics14071280

• 👥 Contributors: Tong Xiao, Qingqing Liao, Guangpu Tang, Lifeng Huang, Hongguang Wang, Chengguo Liu, Fajun Lin

• 📚 Summary: The study introduces an innovative frequency-selective polarization converter designed to enhance radar cross-section (RCS) reduction capabilities.

2. A Multi-Frequency Low-Coupling MIMO Antenna Based on Metasurface

• 📅 Publication Date: 2024-05-30

• 📄 Journal: Electronics

• 🔗 DOI: 10.3390/electronics13112146

• 👥 Contributors: Guangpu Tang, Tong Xiao, Lifeng Cao, Runsheng Cheng, Chengguo Liu, Lifeng Huang, Xin Xu

• 📚 Summary: This research presents a multi-frequency low-coupling MIMO antenna using metasurface technology, improving antenna performance in wireless communication systems.

3. Novel Intelligent Methods for Channel Path Classification and Model Determination Based on Blind Source Signals

• 📅 Publication Date: 2024-02-26

• 📄 Journal: Atmosphere

• 🔗 DOI: 10.3390/atmos15030280

• 👥 Contributors: Li-Feng Cao, Cheng-Guo Liu, Run-Sheng Cheng, Guang-Pu Tang, Tong Xiao, Li-Feng Huang, Hong-Guang Wang

• 📚 Summary: The study proposes intelligent techniques for channel path classification and signal model determination using blind source signals, enhancing signal processing accuracy.

4. The Influence of PE Initial Field Construction Method on Radio Wave Propagation Loss and Tropospheric Duct Inversion

• 📅 Publication Date: 2023-12-29

• 📄 Journal: Atmosphere

• 🔗 DOI: 10.3390/atmos15010046

• 👥 Contributors: Run-Sheng Cheng, Cheng-Guo Liu, Li-Feng Cao, Tong Xiao, Guang-Pu Tang, Li-Feng Huang, Hong-Guang Wang

• 📚 Summary: This research investigates the impact of parabolic equation (PE) initial field construction methods on radio wave propagation loss and tropospheric duct inversion.

5. Comparative Analysis of Intelligent Optimization Algorithms for Atmospheric Duct Inversion Using Automatic Identification System Signals

• 📅 Publication Date: 2023-07-17

• 📄 Journal: Remote Sensing

• 🔗 DOI: 10.3390/rs15143577

• 👥 Contributors: Li-Feng Huang, Cheng-Guo Liu, Zhi-Peng Wu, Li-Jun Zhang, Hong-Guang Wang, Qing-Lin Zhu, Jie Han, Ming-Chen Sun

• 📚 Summary: A comparative study of intelligent optimization algorithms to improve the accuracy of atmospheric duct inversion using automatic identification system (AIS) signals.

6. Experimental Analysis of Atmospheric Ducts and Navigation Radar Over-the-Horizon Detection

• 📅 Publication Date: 2022-05

• 📄 Journal: Remote Sensing

• 🔗 DOI: 10.3390/rs14112588

• 👥 Contributors: Li-Feng Huang, Chengguo Liu, Hong-Guang Wang, Qing-Lin Zhu, Li-Jun Zhang, Jie Han, Yu-Sheng Zhang, Qian-Nan Wang

• 📚 Summary: This work explores the behavior of atmospheric ducts and their impact on navigation radar performance in over-the-horizon (OTH) detection scenarios.

Conclusion

Liu Chengguo’s research portfolio demonstrates extraordinary contributions to communication systems, remote sensing, and radar technologies, making him a strong contender for the Best Researcher Award. His groundbreaking work in microwave technology and signal optimization has not only expanded theoretical knowledge but also enabled practical applications in defense, aerospace, and telecommunications. Recognized for excellence through numerous publications and awards, Liu Chengguo continues to push the boundaries of scientific discovery. 🌟