Dr. NareshKumar Darimireddy | Microwave Communication | Best Faculty Award

Dr. NareshKumar Darimireddy | Microwave Communication | Best Faculty Award

Dr. NareshKumar Darimireddy, Lendi Institute of Engineering and Technology, India

Dr. NareshKumar Darimireddy is a distinguished academician and researcher in Electronics and Communication Engineering, specializing in antennas and microwave communication. He earned his Ph.D. from JNT University, Kakinada, focusing on wideband, multiband, and circularly polarized antennas. With 19 years of teaching and 12 years of research experience, he currently serves as a Professor and Dean of R&D at Lendi Institute of Engineering & Technology. Dr. Darimireddy has supervised multiple Ph.D. scholars and contributed significantly to telecommunications and antenna research. His expertise spans dielectric resonator antennas, metamaterials, and microwave filters, making him a leader in the field.

🌍 Professional Profile:

Google Scholar

🏆 Suitability for Best Faculty Award 

Dr. NareshKumar Darimireddy’s dedication to academia and research excellence makes him a strong candidate for the Best Faculty Award. With nearly two decades of teaching experience and a robust research background, he has significantly contributed to the field of antennas and microwave communication. His leadership as Dean of R&D, mentorship of Ph.D. scholars, and active participation in accreditation processes demonstrate his commitment to academic excellence. His innovative research on hybrid dielectric resonator antennas and proximity fuses for secure communication systems has had a profound impact, positioning him as an influential figure in engineering education and research.

🎓 Education 

Dr. Darimireddy holds a Ph.D. in Electronics and Communication Engineering from JNT University, Kakinada, awarded in August 2018. His doctoral thesis focused on wideband, multiband, and circularly polarized microstrip and dielectric resonator antennas. Prior to this, he completed his Master of Engineering in Electronics & Communication from University Visveswaraya College of Engineering, Bangalore University. His academic journey reflects his deep-rooted interest in telecommunications and microwave communication, equipping him with the knowledge and skills to drive innovation in antenna design and wireless technologies.

👨‍🏫 Experience

Dr. NareshKumar Darimireddy has a rich professional background spanning 19 years in teaching and 12 years in research. He is currently a Professor and Dean of R&D at Lendi Institute of Engineering & Technology, JNT University. Previously, he worked as a Post-Doctoral Fellow at the University of Quebec at Rimouski, Canada, where he supervised Ph.D. and master’s students. His expertise extends to accreditation processes, mentoring research interns, and developing cutting-edge solutions in antennas and microwave systems. His extensive experience in both academia and industry collaborations makes him a distinguished faculty member.

🏅 Awards and Honors 

Dr. Darimireddy has received numerous accolades for his contributions to research and academia. He has been recognized for his work in telecommunications and microwave engineering, receiving appreciation for his research on dielectric resonator antennas. As a mentor, he has guided award-winning Ph.D. scholars and actively contributed to accreditation processes such as NBA and NAAC. His work has been acknowledged by national and international institutions, reflecting his excellence in teaching, research, and innovation.

🔬 Research Focus 

Dr. NareshKumar Darimireddy’s research focuses on telecommunications, antennas, and microwave communication. He specializes in dielectric resonator antennas (DRAs), hybrid antennas, metamaterials, and microwave filters. His current projects include the development of antennas for secure full-duplex communication and proximity fuses. His research aims to enhance wireless communication technologies through novel antenna designs, improving efficiency and performance in various applications. His expertise in microwave antennas and metamaterials contributes to advancing modern communication systems.

📖 Publication Top Notes

  • A Miniaturized Hexagonal-Triangular Fractal Antenna for Wide-Band Applications [Antenna Applications Corner]

    • Year: 2018
    • Citations: 123
  • Design of Triple-Layer Double U-Slot Patch Antenna for Wireless Applications

    • Year: 2015
    • Citations: 58
  • Technological Advancements and Elucidation Gadgets for Healthcare Applications: An Exhaustive Methodological Review-Part-I (AI, Big Data, Block Chain, Open-Source Technologies, and Cloud Computing)

    • Year: 2023
    • Citations: 25
  • Circularly Polarized Hybrid Dielectric Resonator Antennas: A Brief Review and Perspective Analysis

    • Year: 2021
    • Citations: 23
  • Wideband Circularly Polarized Cylindrical Dielectric Resonator Antennas with Rectangular Curved Slots [Antenna Applications Corner]

    • Year: 2020
    • Citations: 20

 

 

Prof. Yuehai Zhou | Telecommunications | Best Researcher Award

Prof. Yuehai Zhou | Telecommunications | Best Researcher Award

Prof. Yuehai Zhou, Xiamen University, China

Prof. Yuehai Zhou is an esteemed researcher in underwater acoustic communication and signal processing. He obtained his Ph.D. in Marine Sciences from Xiamen University and has held research positions in Israel and the U.S. Currently an Associate Professor at Xiamen University, he focuses on underwater acoustic networks and smart acoustic equipment design. His work advances telecommunications in marine environments, ensuring efficient underwater data transmission. With multiple publications in high-impact journals, Prof. Zhou is a leader in oceanic communication technologies. His research bridges electrical engineering and marine sciences, contributing to advancements in global underwater communication systems. 🌊🔊

🌍 Professional Profile:

Orcid

🏆 Suitability for the Best Researcher Award 

Prof. Yuehai Zhou is an exceptional candidate for the Best Researcher Award due to his groundbreaking contributions to underwater acoustic communication. His research enhances maritime security, environmental monitoring, and subsea data transmission. With expertise in underwater acoustic signal processing and network design, he pioneers advancements in oceanic telecommunications. His international research exposure in China, the U.S., and Israel has positioned him as a global expert in marine sciences and engineering. His publications, academic leadership, and innovation in smart underwater acoustic equipment establish him as a top researcher driving the future of underwater communication technology. 🌎🔬

🎓 Education 

Prof. Yuehai Zhou pursued his entire higher education at Xiamen University, China, specializing in Marine Sciences. He earned his Bachelor’s (2010), Master’s (2013), and Ph.D. (2018) degrees from the College of Ocean and Earth Sciences. His doctoral research focused on underwater acoustic communication systems. To expand his expertise, he undertook a visiting research program (2016–2018) at the University of Alabama, USA, where he collaborated with experts in electrical and computer engineering. His educational background blends oceanic sciences with telecommunications, providing a robust foundation for his research in underwater acoustics and signal processing. 📡🌊

đź’Ľ Experience

Prof. Yuehai Zhou has extensive experience in underwater communication research. He was a Visiting Student at the University of Alabama (2016–2018), where he explored advanced electrical and computer engineering applications in marine environments. From 2018 to 2020, he served as a Postdoctoral Researcher at the Acoustic and Navigation Laboratory, University of Haifa, Israel, where he worked on underwater acoustic networks. Since 2020, he has been an Associate Professor at Xiamen University, focusing on smart underwater acoustic equipment and maritime data transmission. His research integrates signal processing, oceanic science, and telecommunications to improve underwater communication systems. 🌊📡

🏅 Awards & Honors

Prof. Yuehai Zhou’s outstanding contributions to underwater acoustic communication and signal processing have earned him numerous accolades. He received prestigious research grants for marine telecommunications innovation. His Ph.D. research was recognized as one of the best dissertations in marine sciences at Xiamen University. As a postdoctoral researcher in Israel, he contributed to award-winning projects in subsea navigation and acoustic signal processing. He has also received multiple best paper awards in international conferences on underwater acoustics and telecommunications. His excellence in teaching and mentorship has further solidified his reputation as a leader in marine communication technology. 🏆🌊

🔬 Research Focus

Prof. Yuehai Zhou’s research centers on underwater acoustic communication, signal processing, and network design. His work enhances data transmission in underwater environments, supporting applications in marine exploration, defense, environmental monitoring, and autonomous underwater vehicles (AUVs). His studies in smart underwater acoustic equipment aim to optimize signal clarity, reduce interference, and enhance network stability in harsh oceanic conditions. His interdisciplinary approach integrates marine sciences, electrical engineering, and computer networks, making his research crucial for advancing global subsea telecommunications. His innovations drive the development of next-generation underwater wireless communication systems. 🌊🔊📶

📖 Publication Top Notes 

  1. A Three-Dimensional Marine Plastic Litter Real-Time Detection Embedded System Based on Deep Learning
    • Publication Year: April 2025
  2. R&D of a Micro-Sized AUV for Quasi-Real-Time In-Situ Monitoring of Coral Reefs
    • Publication Year: 2024
  1. Spatial–Temporal Multipath Clusters Joint Equalization for Deep-Sea Acoustic Communication in Large Delay Spread Channels
    • Publication Year: 2025
  2. A Fast Kalman Equalizer for Single-Carrier Underwater Acoustic Communication
    • Publication Year: 2024
  3. Minimum-BER Sparsity Exploitation Estimation of Time-Varying Underwater Acoustic OFDM Communication Channel
    • Publication Year: 2024
  4. Research on an M-Ary Frequency Shift Keying With Index Modulation System for Underwater Acoustic Communication
    • Publication Year: December 2024

 

Dr. Ekaterina Bondar | Radio Frequency | Best Researcher Award

Dr. Ekaterina Bondar | Radio Frequency | Best Researcher Award

Dr. Ekaterina Bondar, Institute of Physics and Technology, Kazakhstan

Ekaterina Bondar is a Senior Researcher at the Laboratory of Nuclear Physics and Radiation Ecology, Institute of Physics and Technology, Almaty, Kazakhstan. Born in Almaty, Kazakhstan, she holds Russian nationality and has made significant contributions to the field of material science. She earned her PhD and has since focused on the synthesis and application of advanced materials. Her work is particularly impactful in the areas of nuclear physics, radiation ecology, and material science. Ekaterina’s research involves the synthesis of materials with a hierarchical structure based on tin dioxide, and she leads various projects, supervises research activities, and contributes extensively to scientific publications and presentations. With a passion for advancing scientific knowledge, she continues to play a crucial role in shaping cutting-edge research in her field.

Professional Profile:

Orcid

Suitability for Award:

Ekaterina Bondar is an excellent candidate for the Research for Best Researcher Award. Her qualifications and contributions demonstrate the high level of expertise, innovation, and leadership that are typically sought after in award recipients.

🎓Education:

Ekaterina Bondar holds a PhD in Physics, with a focus on material science and nuclear physics. She began her academic journey at the Institute of Physics and Technology, Almaty, Kazakhstan, and has been an active researcher since 2014. Her education has been enriched by both hands-on research and formal training in nuclear physics, radiation ecology, and advanced materials. Throughout her career, Ekaterina has expanded her expertise in material synthesis, particularly the development of hierarchical structures in materials like tin dioxide. She has earned recognition for her ability to bridge theory and practical applications in material science, which is reflected in her numerous publications in high-impact journals. Her dedication to both academic excellence and real-world applications of her research makes her a valuable contributor to the scientific community. Ekaterina’s commitment to her field continues as she leads innovative projects in material science and nuclear research.

🏢Experience :

Ekaterina Bondar has worked at the Institute of Physics and Technology, Almaty, since 2014. She began her career as a Senior Laboratory Assistant, progressively advancing to Senior Researcher. Her primary role is within the Laboratory of Nuclear Physics and Radiation Ecology, where she leads the AP19574404 project, focusing on the synthesis of materials with hierarchical structures based on tin dioxide. As project manager, Ekaterina is responsible for overseeing all aspects of the project, from supervision of research activities to the preparation of reports and publications. She actively collaborates with her colleagues, writes scientific articles, and represents her research at national and international seminars and conferences. Her experience in both research and project management has made her an indispensable part of her team. With a growing portfolio of patents and publications, Ekaterina continues to expand her influence in the fields of nuclear physics, radiation ecology, and material science.

🏅Awards and Honors:

Ekaterina Bondar has been recognized for her outstanding contributions to material science and nuclear research. She holds seven patents for her innovations, which have significantly advanced the synthesis and application of new materials. Additionally, her research articles have been published in high-impact journals indexed in both the Web of Science and Scopus, earning her recognition within the global scientific community. Her work has been featured at multiple international seminars and conferences, where she has presented her findings and gained praise for her research in the areas of material synthesis and radiation ecology. Ekaterina has also received institutional awards for her role in leading key research projects, and her collaboration with other top researchers has positioned her as a leading figure in her field. Her continued success in academia and research is a testament to her hard work, innovation, and dedication to advancing scientific knowledge.

🔬Research Focus:

Ekaterina Bondar’s research is centered on material science, nuclear physics, and radiation ecology. Her primary focus is the synthesis of advanced materials, particularly the development of materials with hierarchical structures based on tin dioxide. These materials have a wide range of applications in radiation protection, environmental monitoring, and energy storage. Her work addresses the challenges of creating materials with unique properties that enhance performance in various industrial and environmental applications. Ekaterina’s research also explores the environmental impact of radiation and its interaction with different materials, with a view toward developing more sustainable technologies. As project manager for the AP19574404 initiative, she coordinates research efforts, supervises her team, and ensures that the project meets its objectives. Through her work, Ekaterina is helping to advance the understanding of material behavior under radiation exposure, contributing to both scientific advancement and practical applications in the fields of energy and environmental science.

Publication Top Notes:

  • Birth and Fusion in a Sol-Gel Process with Low Diffusion
  • Influence of Hydrogen Plasma on SnOâ‚‚ Thin Films
  • Influence of Plasma Treatment on Physical Properties of Thin SnOâ‚‚ Films Obtained from SnClâ‚„ Solutions with Additions of NHâ‚„F and NHâ‚„OH
  • Sensitivity to Ethanol Vapour of Thin Films SnOâ‚‚ Doped with Fluorine
  • Doping of Fluorine of Tin Dioxide Films Synthesized by Sol-Gel Method