Da Chen | Wireless Communication | Best Researcher Award

Published on by Academic Awards

Prof. Dr. Da Chen | Wireless Communication | Best Researcher Award

Huazhong University of Science and Technology | China

Prof. Dr. Da Chen is a distinguished researcher in the field of wireless communications, focusing on multicarrier modulation, waveform design, communication signal processing, and millimeter-wave communication. His pioneering work on FBMC and OQAM/OFDM systems, cell-free massive MIMO, and hybrid precoding for wideband mmWave networks has significantly contributed to advancing next-generation wireless communication technologies. Prof. Dr. Da Chen has published extensively in high-impact IEEE journals, co-authored influential books with Elsevier and China Science Press, and holds numerous national patents. His research grants, funded by the National Natural Science Foundation of China and the Ministry of Science and Technology, underline his leadership in developing 5G and 6G air interface technologies. Recognized with multiple Best Paper and Editor Awards, he also serves as an editorial board member for leading IEEE journals. His work bridges theoretical innovations and real-world communication system applications.

Profile: Google Scholar

Featured Publications

Liu, P., Luo, K., Chen, D., & Jiang, T. (2019). Spectral efficiency analysis of cell-free massive MIMO systems with zero-forcing detector. IEEE Transactions on Wireless Communications, 19(2), 795–807.

Xiao, L., Li, S., Qian, Y., Chen, D., & Jiang, T. (2021). An overview of OTFS for Internet of Things: Concepts, benefits, and challenges. IEEE Internet of Things Journal, 9(10), 7596–7618.

Chen, Y., Xiong, Y., Chen, D., Jiang, T., Ng, S. X., & Hanzo, L. (2020). Hybrid precoding for wideband millimeter wave MIMO systems in the face of beam squint. IEEE Transactions on Wireless Communications, 20(3), 1847–1860.

Chen, D., Qu, D., Jiang, T., & He, Y. (2013). Prototype filter optimization to minimize stopband energy with NPR constraint for filter bank multicarrier modulation systems. IEEE Transactions on Signal Processing, 61(1), 159–169.

Chen, Y., Chen, D., Jiang, T., & Hanzo, L. (2019). Channel-covariance and angle-of-departure aided hybrid precoding for wideband multiuser millimeter wave MIMO systems. IEEE Transactions on Communications, 67(12), 8315–8328.

Yunqi Zhang | Wireless Communication | Best Researcher Award

Published on by Academic Awards

Assoc. Prof. Dr. Yunqi Zhang | Wireless Communication | Best Researcher Award

Assoc. Prof. Dr. Yunqi Zhang, Xi’an University of Posts and Telecommunications, China

Assoc. Prof. Dr. Yunqi Zhang is an expert in Electronic Science and Technology at Xi’an University of Posts and Telecommunications. He earned his Bachelor’s in Electronic Information Engineering in 2009 and Ph.D. in Electromagnetic Field and Wireless Technology in 2015, both from Xi’an University of Electronic Science and Technology. His research interests include array antennas, vortex electromagnetic waves, and intelligent metasurfaces. Dr. Zhang has led various projects, including antenna decoupling technology and acoustic wave phenomena. He has published over 10 SCI-indexed papers in leading journals. 📡📚

 

Publication Profile

Scopus

Academic and Professional Background

Assoc. Prof. Dr. Yunqi Zhang is a master’s supervisor in Electronic Science and Technology at Xi’an University of Posts and Telecommunications. He completed his Bachelor’s in Electronic Information Engineering at Xi’an University of Electronic Science and Technology in 2009 and his Ph.D. in Electromagnetic Field and Wireless Technology in 2015. His teaching and research focus on array antennas, vortex electromagnetic waves, intelligent metasurfaces, and reflective array antennas. Dr. Zhang has successfully hosted multiple interdisciplinary projects and published over 10 SCI-indexed papers in prestigious international journals. 📡🎓📚

 

Research and Innovations

Assoc. Prof. Dr. Yunqi Zhang has led several innovative research projects. One of his key projects, 5G Mobile Communication Antenna Decoupling Technology (2018-2019), was supported by the Shaanxi Provincial Department of Education, focusing on graphene-based antenna design. Additionally, he contributed to the Acoustic Wave Reflection/Refraction Phenomena (2020-2023) project funded by the National Natural Science Foundation of China, which aimed to explore acoustic wave propagation through theoretical and experimental studies. His research continues to drive advancements in electromagnetic and acoustic wave technologies. 📡🔬🎶

 

Research Focus

Assoc. Prof. Dr. Yunqi Zhang’s research primarily focuses on electromagnetic wave technologies with key areas including array antennas, orbital angular momentum (OAM) wave generation, and intelligent metasurfaces. His work on reconfigurable antennas for higher mode generation and wideband antenna designs for satellite communications contributes significantly to advancing wireless communication systems. He also explores acoustic wave propagation and graphene-based antenna designs for 5G applications. His research blends electromagnetics, antenna design, and metasurfaces to address next-generation communication and electromagnetic challenges. 📡📶🔧🧠

 

Publication Top Notes

  • Mode reconfigurable OAM helical array antenna for higher mode generationMicrowave and Optical Technology Letters, 2024, Cited by: 1 📡
  • Wideband Simultaneous Dual Circularly Polarized Phased Array Subarray with Scalable Characteristics for Satellite CommunicationsApplied Computational Electromagnetics Society Journal, 2024 🚀
  • Wideband Low-Profile Fabry-Perot Cavity Antenna with MetasurfaceApplied Computational Electromagnetics Society Journal, 2024🌐
  • Enhanced Mode Conversion and Out-of-Band Rejection in Double-Side Composite SSPPs StructureIEEE Photonics Technology Letters, 2024, Cited by: 1
  • Gain-enhanced and Mechanical Reconfigurable Slot Antenna with MetasurfaceApplied Computational Electromagnetics Society Journal, 2023📡
  • Circular monopole filtering antenna with improved sideband selectivity and in-band impedance using circular-stub-load resonatorInternational Journal of Microwave and Wireless Technologies, 2023 🛠️
  • A Compact Circularly Polarized Crossed Dipole Antenna with Wide Bandwidth using Split Ring Resonator and Parasitic PatchesApplied Computational Electromagnetics Society Journal, 2023 🔧
  • Design of a Miniatured, Electromagnetic Quasi-Yagi Antenna with Circularly Polarized CharacteristicsApplied Computational Electromagnetics Society Journal, 2023🧠
  • Analysis and Design of Broadband OAM Array AntennaApplied Computational Electromagnetics Society Journal, 2023 📡
  • A Broadband Elliptical Microstrip Antenna with Gain-Filtering Response2023 International Conference on Microwave and Millimeter Wave Technology, 2023💡