Dr. Naveen Mishra | 6G Networks | Young Scientist Award

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Dr. Naveen Mishra | 6G Networks | Young Scientist Award

Dr. Naveen Mishra, Vellore Institute of Technology, India

Dr. Naveen Mishra is an accomplished Assistant Professor in Communication Engineering at Vellore Institute of Technology University, Tamil Nadu, India. With a solid foundation in Electronics and Communication Engineering, he earned his Bachelor of Technology from College of Engineering and Rural Technology, Meerut. He is currently pursuing a Ph.D. in Electronics Engineering at Indian School of Mines, Dhanbad. Dr. Mishra has extensive experience in antenna measurement, metamaterial structures, and the next-generation communications sector, including 5G/6G technologies. He has contributed significantly to research in microwave and photonics technologies. As an active reviewer for top journals like IEEE Access and International Journal of RF and Microwave Computer-Aided Engineering, Dr. Mishra’s scholarly achievements are recognized internationally. His role in organizing faculty development programs and his engagement in cutting-edge research make him a prominent figure in his field.

🌍 Professional Profile

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🏆 Suitability for Young Scientist Award

Dr. Naveen Mishra is highly deserving of the Young Scientist Award due to his significant contributions in the field of communication engineering and metamaterials. His research on 5G/6G communications and next-gen communication systems holds great promise for advancing modern technologies. Dr. Mishra has demonstrated exemplary leadership by organizing faculty development programs in microwave and photonics technology. His active role as a reviewer for top-tier journals such as IEEE Access and International Journal of RF and Microwave Computer-Aided Engineering shows his active engagement in the research community. Dr. Mishra’s work on antenna fabrication and measurement in renowned laboratories has added value to the academic and technological advancements in communication systems. His passion for emerging technologies and innovative applications positions him as an ideal candidate for the Young Scientist Award.

🎓 Education 

Dr. Naveen Mishra holds a Bachelor of Technology in Electronics and Communication Engineering from the College of Engineering and Rural Technology, Meerut, completed in 2010. He then pursued a Ph.D. in Electronics Engineering at the Indian School of Mines, Dhanbad, where he is currently a research scholar. His doctoral research focuses on metamaterial structures and their applications in advanced communication systems. During his academic journey, Dr. Mishra has worked on various lab-based projects, including antenna measurement and fabrication at IIT Kanpur and IIT(ISM) Dhanbad, which have enriched his technical skills. His educational background, combined with his active role in research, has prepared him to contribute significantly to next-generation communications and innovative antenna technologies.

💼 Experience 

Dr. Naveen Mishra has valuable teaching and research experience in the field of communication engineering. Since 2019, he has been serving as an Assistant Professor at the Vellore Institute of Technology University, Tamil Nadu, where he teaches subjects related to communication systems, microwave technologies, and electromagnetics. Prior to this, he worked as a Lecturer/Assistant Professor at ABSS Institute of Technology, Meerut (2011–2014), where he taught electronics engineering. Dr. Mishra has also contributed to research at top institutions like IIT Kanpur and IIT(ISM) Dhanbad, focusing on antenna measurement and fabrication. His extensive academic and practical experience has solidified his expertise in metamaterial structures, next-gen communications, and advanced antenna technologies. Additionally, Dr. Mishra actively organizes faculty development programs to keep faculty members updated on the latest trends in microwave and photonics technologies.

🏅 Awards and Honors 

Dr. Naveen Mishra has earned multiple awards and recognition for his exceptional academic and research accomplishments. He qualified the Graduate Aptitude Test in Engineering (GATE) 2013, which paved the way for his research career. During his Ph.D., he received a prestigious fellowship from the Ministry of Human Resource Development (MHRD), Government of India, from January 2014 to August 2018. His contributions to communication engineering have led to an invitation to serve as an active reviewer for prominent journals, including IEEE Access, Progress in Electromagnetic Research, and the International Journal of RF and Microwave Computer-Aided Engineering. Dr. Mishra’s dedication to advancing next-generation communications and photonics technologies has earned him respect in the academic community, along with the responsibility of being a review editor on the editorial board of the System and Test-Bed Design Specialty Section of Frontiers in Communications and Networks.

🔬 Research Focus 

Dr. Naveen Mishra’s primary research focus lies in metamaterial structures and their applications in advanced communication systems. He is particularly interested in the development and optimization of next-generation communication technologies, including 5G/6G systems. Dr. Mishra’s work on microwave technology and photonics is integral to shaping the future of telecommunication networks. His research into metamaterials explores how these materials can be used to enhance the performance of antennas, waveguides, and communication systems, addressing the demands of next-gen communications. Dr. Mishra also investigates the integration of metamaterials in communication networks, focusing on signal transmission efficiency and improved antenna design. His interdisciplinary approach combines electromagnetics, communication theory, and innovative material science, contributing to the evolution of future telecommunication infrastructures.

📚 Publication Top Notes:

  1. Title: An investigation on compact ultra-thin triple band polarization independent metamaterial absorber for microwave frequency applications
    • Cited by: 107
    • Year: 2017
  2. Title: Design and analysis of an ultrathin triple-band polarization independent metamaterial absorber
    • Cited by: 60
    • Year: 2017
  3. Title: A Miniaturized ZOR antenna with enhanced bandwidth for WiMAX applications
    • Cited by: 53
    • Year: 2016
  4. Title: Analysis of a Wideband Circularly Polarized Cylindrical Dielectric Resonator Antenna With Broadside Radiation Coupled With Simple Microstrip Feeding
    • Cited by: 52
    • Year: 2017
  5. Title: Machine Learning Approach for Unmanned Aerial Vehicle’s Path Scheduling and Precise Circle Detection
    • Cited by: 30
    • Year: 2024

 

Dr. Evangelos Spyrou | Wireless Network | Best Researcher Award

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Dr. Evangelos Spyrou | Wireless Network | Best Researcher Award

Dr. Evangelos Spyrou, Hellenic Institue of Transport, Centre for Research and Technology Hellas , Greece

Evangelos D. Spyrou, a dynamic researcher born on January 2, 1979, in Greece, is a dedicated professional specializing in wireless sensor networks, vehicular routing, and game theory. He currently serves as a Research Associate at the Hellenic Institute of Transport, Centre for Research and Technology Hellas (CERTH). With extensive academic and industrial experience, Evangelos has worked on various prestigious projects, including European Union and national initiatives. His career spans roles such as teaching assistant, software engineer, and developer, showcasing his expertise in embedded systems, wireless networks, and software engineering. Recognized for his impactful research, Evangelos has received multiple awards and has authored numerous publications.

Professional Profile:

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Suitability for the Award:

Evangelos D. Spyrou is an excellent candidate for  Best Researcher Award based on his substantial contributions to wireless networks, vehicular routing, embedded systems, and game theory, particularly in the context of energy optimization and network performance.

🎓Education 

Evangelos D. Spyrou’s academic journey is rooted in computing and engineering. He holds a Ph.D. in Electrical and Computer Engineering from Aristotle University of Thessaloniki, Greece, where his dissertation focused on optimizing link quality and energy efficiency in wireless sensor networks using game theory. He also earned an MSc in Embedded Computer Systems Engineering with distinction from Northumbria University, UK. His master’s thesis investigated energy-efficient routing protocols for wireless sensor devices in environmental monitoring. Earlier, Evangelos completed a BSc in Computing from Northumbria University, focusing on real-time systems and programming, with a dissertation on intranet web development. His educational path reflects a strong foundation in technology, theoretical analysis, and applied problem-solving.

🏢Professional Experience 

Evangelos D. Spyrou has held diverse roles across academia, industry, and research. He is a Research Associate at CERTH’s Hellenic Institute of Transport, focusing on vehicular routing and embedded systems. As a software engineer, he contributed to wireless sensor network projects at DRAXIS Environmental S.A. and CERTH’s Institute of Applied Biosciences. Evangelos also served as a research assistant at Imperial College London, working on wireless sensor networks. His teaching roles include lecturer positions at Technological and Educational Institute of Epirus and Private Institute Omiros, covering topics like software engineering and telecommunications. His industrial experience spans defense systems development at Signaal Hellas S.A. and software development for Pegasus Interactive S.A. With a multidisciplinary approach, Evangelos combines technical acumen with collaborative teamwork.

🏅Awards and Honors 

Best Student Paper Award – WINSYS 2017: Game-theoretic End-to-end Throughput Optimization in Wireless Sensor Networks.Best Student Paper Award – SENSORNETS 2017: Discrete Strategy Game-Theoretic Topology Control in Wireless Sensor Networks.Erasmus Mundus Scholarship – AUTO-ID Lab, Keio University, Japan: Wireless communication in vehicular networks and vehicle fleets.Aristotle University Scholarship – DRIVE-IT Project: Research on vehicular networks.

🔬Research Focus 

Evangelos D. Spyrou specializes in wireless sensor networks, vehicular routing, and game theory. His research explores optimizing link quality and energy efficiency in wireless communication systems using game-theoretic approaches. Evangelos’s work focuses on both cooperative and non-cooperative games, aiming to enhance topology control, throughput optimization, and energy management in wireless networks. Additionally, he investigates fault detection and routing algorithms for vehicular networks, emphasizing real-world applications in transportation and environmental monitoring. His interdisciplinary expertise bridges embedded systems, software engineering, and formal methods.

Publication Top Notes:

  • Application of Forward Error Correction (FEC) Codes in Wireless Acoustic Emission Structural Health Monitoring on Railway Infrastructures
  • Game-Theoretic Power and Rate Control in IEEE 802.11p Wireless Networks
  • Acousto-ultrasonic Analysis of Defects in Composite Specimens Used in Transportation Domain
  • An Adaptable Web GIS Platform for Monitoring Port Air Quality
  • DSRC or LTE? Selecting the Best Medium for V2I Communication Using Game Theory

 

Dr. Ekaterina Bondar | Radio Frequency | Best Researcher Award

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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