MUHAMMAD ISHFAQ | Engineering and Technology | Best Researcher Award

MUHAMMAD ISHFAQ | Engineering and Technology | Best Researcher Award

Dr MUHAMMAD ISHFAQ, Lanzhou University of Technology, China

Dr. Muhammad Ishfaq is a dynamic engineer with a strong research foundation and leadership skills. He holds a Ph.D. from Beijing University of Posts and Telecommunications, specializing in millimeter-wave OAM vortex beam generation through transmissive metasurfaces. With experience as an Assistant Professor at The University of Faisalabad, he led academic projects and supervised students. Dr. Ishfaq has expertise in antenna design, signal processing, and wave propagation. His research focuses on advanced wireless communication technologies and antenna performance, contributing to the development of 5G and beyond. He is skilled in simulation tools like ANSYS HFSS, MATLAB, and CST. 📡📚🎓🌐

Publication Profile

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Academic Qualification

Dr. Muhammad Ishfaq is a distinguished researcher with a PhD in Electrical Engineering from Beijing University of Posts and Telecommunications (2018–2024), where he conducted groundbreaking research on millimeter wave OAM vortex beams generation through transmissive metasurfaces. He holds a Master of Science in Electrical Engineering, specializing in Signal Processing & Wave Propagation, from Linnaeus University, Sweden (2010–2013), and participated in the Erasmus Exchange Program at Université de Technologie de Belfort Montbéliard, France (2011–2012). Dr. Ishfaq completed his Bachelor’s in Electrical and Electronics Engineering at Bahauddin Zakariya University, Multan, Pakistan (2004–2009). ⚡📡🎓

Professional Experience

Dr. Muhammad Ishfaq served as Assistant Professor at The University of Faisalabad from 2013 to 2018. His roles included Project Coordinator, faculty support in research, and member of the Quality Enhancement Committee (QEC). He also served as Alumni Association Coordinator and managed the Antenna Propagation and Measurement & Instrument Lab. As Program Coordinator in the Department of Electrical Engineering, he oversaw curriculum development and accreditation for the BE Electrical program. Additionally, he was the IEEE Sub-Branch Counselor, organizing seminars and CPDs. Dr. Ishfaq supervised various projects, including the Erasmus Schools Project in Sweden and the National Internship Program. 🎓📚🔬

Research and Development

Dr. Muhammad Ishfaq’s PhD dissertation, “Research on Millimeter Wave OAM Vortex Beams Generation Through Transmissive Metasurfaces,” focuses on advancing OAM antenna technology for 6G communication. His work introduces innovative unit cells, transmitarrays, and slot elements for broadband vortex beam generation in the Ka-band. The research achieved significant results with mode purities exceeding 70%, peak gain of 23.8 dBi, and bandwidths up to 43.3%. Additionally, his MS thesis “A Compact Microstrip Patch Antenna for LTE Applications” explores compact, multiband antennas, enhancing bandwidth for miniaturized LTE devices through optimized feeding techniques. 🌐📡📶

Achievements

Dr. Muhammad Ishfaq is an accomplished scholar with notable achievements, including receiving the prestigious “Chinese Government” and “European Erasmus” Scholarships, as well as the Linnaeus University Scholarship 🎓🌍. He has contributed to academic community engagement by organizing events such as the “Alumni Get-Together” at the University of Faisalabad in 2014 🎉. Dr. Ishfaq also led impactful workshops, like the one on “Applications of the ISM Radio Bands” and a seminar on “Engineering Project Management” at the same university 📚. Additionally, he established the “Power Electronics and Electric Machines Labs,” further enhancing research opportunities at the institution ⚡🔧.

Research Focus

Dr. Muhammad Ishfaq’s research focus lies in advanced metasurfaces, polarization conversion, and orbital angular momentum (OAM) technologies. His work emphasizes the development of wideband, dual-band, and multifunctional metasurfaces for polarization conversion, particularly in the Ka-band and terahertz regimes. He explores the creation of OAM vortex beams for communication systems and investigates novel polarization converter designs for linear-to-circular conversions. Additionally, his research includes energy-efficient path planning for multi-UAV environments in 5G networks. With contributions to IEEE journals and other high-impact publications, his work significantly advances modern wireless communication and electromagnetic technologies. 📡🔬📶🌐

 

Publication Top Notes

 

Design and Simulation of Inductive Power Transfer Pad for Electric Vehicle Charging

 

JianCheng Gu | Engineering and Technology | Best Researcher Award

JianCheng Gu | Engineering and Technology | Best Researcher Award

Assist Prof Dr JianCheng Gu, Nanjing Tech University, China

Based on Dr. JianCheng Gu’s biography and research contributions, he appears to be a strong candidate for the Best Research Award.

Publication profile

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Innovative Research

Dr. Gu has developed a novel approach for rapid building damage assessment post-disasters using machine learning and remote sensing. This innovative method addresses a critical need in disaster response and reconstruction, highlighting his ability to push the boundaries of current research.

High-Impact Publications

His work has been published in reputable journals like Composite Structures, Journal of Constructional Steel Research, and Buildings. His research on infrared thermography and shear connectors demonstrates his expertise in structural assessment and repair technologies.

Research Contributions

Dr. Gu’s research on delamination detection, shear resistance, and rapid damage identification has significant practical applications. His studies contribute to improving construction materials and methods, which are crucial for advancing building safety and resilience.

Acknowledged Support

The research is supported by the Japan Society for the Promotion of Science (JSPS), indicating recognition and financial backing from a prestigious institution. This support underscores the relevance and importance of his work in the academic community.

Collaboration and Outreach

Dr. Gu’s collaboration with open-source contributors and his acknowledgment of their efforts reflect his commitment to the broader research community and interdisciplinary work.

Conclusion

Dr. Gu’s innovative approach, impactful publications, significant contributions to structural engineering, and collaboration with the academic community make him a strong candidate for the Best Researcher Award. His work addresses critical issues in disaster management and construction, demonstrating both practical and theoretical advancements in his field.

Publication top notes

Detectability of delamination regions using infrared thermography in concrete members strengthened by CFRP jacketing

Experimental study on the shear resistance of a comb-type perfobond rib shear connector

Image processing methodology for detecting delaminations using infrared thermography in CFRP-jacketed concrete members by infrared thermography

Study of single perfobond rib with head stud shear connectors for a composite structure

Advances in Rapid Damage Identification Methods for Post-Disaster Regional Buildings Based on Remote Sensing Images: A Survey

Calculation method for flexural capacity of composite girders with corrugated steel webs

Effects of corrosion on shear behaviour of discontinuous perfobond rib shear connectors

Experimental study on asynchronous construction for composite bridges with CSWs: Comparative study

Experimental study on flexural behavior of steel-laminated concrete (NC and UHPC) composite beams with corrugated steel webs