Dr. Yi Feng | Mechanical system | Best Researcher Award

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Dr. Yi Feng | Mechanical system | Best Researcher Award 

Dr. Yi Feng, kyonggi university, South Korea

Feng Yi is a dedicated and innovative PhD candidate in Global Business at Kyonggi University, South Korea. He has a diverse academic background, having earned a Master’s degree in Business Administration and a Bachelor’s degree in Korean Language & Literature and Chinese Culture from Sogang University. With a strong foundation in Korean language proficiency, Feng also completed Level 5 of the Korean Language Institute at Sungkyunkwan University. His academic journey is marked by a focus on sustainable development and green consumer behavior, fields in which he has made significant contributions through research and publications. Feng is an active participant in the academic community, co-founding the Korea-China Institute of Economic Development and the Journal of Digital Intelligence and Economic Growth. His research accomplishments include publishing multiple papers in high-impact journals and authoring books. A recipient of several academic honors, including the Excellent Paper Award and a nomination for the “Best Researcher Award” at the International AI Data Scientist Award, Feng is known for his meticulous work ethic, strong analytical abilities, and team spirit. Proficient in SPSS and AMOS, he excels at summarizing and analyzing complex data, making him a valuable asset to both academic and professional environments.

Professional Profile:

ORCID

Summary of Suitability for Best Researcher Award

Feng Yi is a highly qualified candidate for the Best Researcher Award, given his strong academic background and significant contributions to research in green consumer behavior and sustainable development. With nine published papers, including three in SSCI journals, two books authored, and active participation in over ten international conferences, he has demonstrated outstanding research capabilities. His co-founding of the Korea-China Institute of Economic Development and the Journal of Digital Intelligence and Economic Growth further highlight his leadership and scholarly impact. Recognized with multiple Excellent Paper Awards, Feng Yi’s dedication, innovation, and analytical expertise make him a deserving nominee for this prestigious honor.

Education Background 🎓

  • 2022.09–2025.06 Kyonggi University, South Korea | Global Business Major | PhD Candidate

  • 2021.01–2022.09 Sogang University, South Korea | Business Administration Major | Master’s Degree

  • 2017.03–2021.01 Sogang University, South Korea | Korean Language & Literature and Chinese Culture Major | Bachelor’s Degree

  • 2015.12–2016.12 Sungkyunkwan University, South Korea | Korean Language Institute | Completed Level 5 Korean Proficiency

Project Experience 📝

  • Co-founded the Korea-China Institute of Economic Development 🌍

  • Co-founded the Journal of Digital Intelligence and Economic Growth (ISSN: 3058-3535) 📖

  • Contributed to the book Case Studies of Korean Business Management, mainly responsible for Chapter 4 on energy and steel enterprises in Korea 📚

  • Fresh Agricultural Product Supply Chain Carbon Footprint Study Based on Life Cycle (Book under review) 🌱

  • Invited reviewer for the Asia Pacific Journal of Marketing and Logistics (SSCI), published by Emerald Publishing 🌐

Honors and Awards 🏆

  • Excellent Paper Award, Korean Internet Information Society Spring Academic Conference (2024.04.26) 🏅

  • Excellent Paper Award, International Business Conference in the Digital Age (2024.06.04) 🏆

  • Nominated for the “Best Researcher Award” in the “International AI Data Scientist Award” 🏅

Publication Top Notes:

The Impact Mechanism of Government Environmental Regulation and Green Consumer Orientation (GCO) on Green Purchase Intention: A Case Study of Zespri

Normative Influences on Carbon Offset Behavior: Insights from Organic Farming Practices

The Impact of Big Data-Driven Strategies on Sustainable Consumer Behaviour in E-Commerce: A Green Economy Perspective

Dr. Ameen Ullah | Electrical Engineering Awards | Best Researcher Award

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Dr. Ameen Ullah | Electrical Engineering Awards | Best Researcher Award

Dr. Ameen Ullah, Shenzhen University, China

Ameen Ullah is an accomplished electrical engineer from Peshawar, Pakistan, specializing in control systems and renewable energy. He earned his Master of Science in Electrical Engineering from COMSATS University Islamabad, where he focused on developing sensorless adaptive higher-order sliding mode control techniques for permanent magnet synchronous generator (PMSG) based standalone wind energy conversion systems. His thesis highlighted the importance of maximizing power extraction from variable wind speeds, showcasing his expertise in robust and intelligent control paradigms. Ameen holds a Bachelor of Science in Electrical Engineering from the University of Engineering and Technology, Peshawar, where he developed a directional sound system capable of emitting sound in a narrow beam. He has authored several publications in reputable journals, including Fractal and Fractional and Applied Energy, contributing to advancements in motor drive control systems and wind energy performance. With a solid foundation in MATLAB/SIMULINK modeling and a commitment to innovative solutions in energy systems, Ameen continues to push the boundaries of research in electrical engineering.

Professional Profile:

SCOPUS

Suitability of Ameen Ullah for the Best Researcher Award

Candidate Overview: Ameen Ullah is a promising researcher in the field of Electrical Engineering, specializing in renewable energy systems and control techniques. His strong academic background, innovative research contributions, and active involvement in cutting-edge projects position him as a highly suitable candidate for the Best Researcher Award.

Education 🎓

  • Master of Science in Electrical Engineering
    COMSATS University Islamabad, Abbottabad Campus, Pakistan
    06/03/2017 – 23/07/2019
    CGPA: 3.63/4.0

    • Thesis: Sensorless Adaptive Higher Order Sliding Mode MPPT Control Techniques for PMSG based Standalone Wind Energy Conversion System.
  • Bachelor of Science in Electrical Engineering
    University of Engineering and Technology, Peshawar, Pakistan
    24/09/2012 – 15/06/2016
    CGPA: 2.95/4.0

    • Thesis: Sonic Beam-Directional Sound System.

Work Experience 💼

  • Current Position: (Not specified in CV, consider adding relevant position)
  • Previous Positions:
    • Researcher/Engineer (Details needed)

Achievements 🌟

  • Research Excellence: Contributed to advancements in wind energy conversion systems and motor control techniques.
  • Innovative Projects: Developed a directional sound system focused on improving sound delivery accuracy.

Publication Top Notes:

A comprehensive study of nano/micro fillers on silicone rubber insulators: Electrical, mechanical, and thermal characterization

Enhanced wind energy conversion system performance using fast smooth second-order sliding mode control with neuro-fuzzy estimation and variable-gain robust exact output differentiator

Robust Speed Control of Permanent Magnet Synchronous Motor Drive System Using Sliding-Mode Disturbance Observer-Based Variable-Gain Fractional-Order Super-Twisting Sliding-Mode Control

Variable-Gain Robust Exact Differentiator-Based Neuro-Adaptive Control Design for Dynamic Wind Power Optimization

Mr. Seung Heon Lee | Electrical Machine Awards | Best Researcher Award

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Mr. Seung Heon Lee | Electrical Machine Awards | Best Researcher Award 

Mr. Seung Heon Lee, Gachon University, South Korea

Seung-Heon Lee is a dedicated electrical engineer currently pursuing a Ph.D. in Next Generation Energy System Convergence at Gachon University in Seongnam, Korea. He earned his Bachelor of Science degree in Electrical Engineering from Gachon University in 2022 and subsequently completed his Master of Science in Next Generation Energy System Convergence in 2024. Seung-Heon’s research interests focus on the design and analysis of motors and generators, exploring their applications in vehicles, home appliances, and industrial electrical machinery. With a strong academic background and a commitment to advancing energy systems, he aims to contribute to innovative solutions in the field of electrical engineering.

Professional Profile:

ORCID

Summary of Suitability for the Best Researcher Award: Seung-Heon Lee

Research Contributions
Seung-Heon Lee is a promising researcher in the field of electrical engineering, specifically focusing on next-generation energy systems. He has made significant contributions through his publications, demonstrating a robust understanding of motor and generator design and analysis. His work includes

🎓 Education:

  • B.S. in Electrical Engineering
    Gachon University, Seongnam, Korea
    Year: 2022
  • M.S. in Next Generation Energy System Convergence
    Gachon University, Seongnam, Korea
    Year: 2024
  • Ph.D. in Next Generation Energy System Convergence (ongoing)
    Gachon University, Seongnam, Korea
    Since 2024

💼 Work Experience:

  • Research Assistant
    Gachon University, Seongnam, Korea
    Role: Involved in research projects related to the design and analysis of motors and generators.
    Duration: 2022 – Present

🏆 Achievements:

  • Contributed to innovative research in energy systems with a focus on practical applications in vehicles, home appliances, and industrial machinery.
  • Published several papers in reputable journals related to electrical engineering and energy systems.

🏅 Awards and Honors:

  • Best Paper Award at the Gachon University Engineering Conference
    Year: 2023
    (For outstanding research in the field of electrical engineering and energy systems)
  • Scholarship Recipient for Academic Excellence
    Gachon University
    Year: 2021

Publication Top Notes

Optimal Rotor Design for Reducing Electromagnetic Vibration in Traction Motors Based on Numerical Analysis

A Novel Sleeve Design to Reduce the Eddy Current Loss of High-Speed Electrical Machines

A study on the shape of polar anisotropic magnetizing yoke to reduce dead zone of ring magnet

Performance comparison analysis and process suggestion through slotless SPMSM during high-speed operation

Prof. Dr. Yuh-Chung Hu | Actuators | Best Researcher Award

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Prof. Dr. Yuh-Chung Hu | Actuators | Best Researcher Award

Prof. Dr. Yuh-Chung Hu, National ILan University, Taiwan

Dr. Yuh-Chung Hu is a distinguished professor in the Department of Mechanical and Electromechanical Engineering at National Ilan University, Taiwan. He has dedicated over two decades to advancing mechanical engineering, specializing in vibrations, acoustics, and smart manufacturing systems. His innovative research integrates machine learning and advanced instrumentation, enhancing industrial applications. With a strong focus on interdisciplinary collaboration, Dr. Hu has authored numerous publications and contributed to various projects in the field. He is committed to fostering the next generation of engineers through mentorship and leadership roles within the academic community. His ongoing research aims to push the boundaries of technology in renewable energy integration, making significant strides in sustainable engineering practices.

Professional Profile

Orcid

Summary of Suitability for the Award

Dr. Yuh-Chung Hu is a distinguished academic and researcher in the field of Mechanical and Electromechanical Engineering at National Ilan University, Taiwan. His extensive educational background, including a Ph.D. in Mechanical Engineering, provides a solid foundation for his research endeavors. His career trajectory demonstrates a commitment to academic excellence, having held significant leadership positions such as Dean of the Office of Research and Development and Department Head.

🎓 Education

Dr. Yuh-Chung Hu earned his Ph.D. in Mechanical Engineering from National Taiwan University of Science and Technology in June 1999, with a dissertation on vibration theory for sandwich shells with a viscoelastic core. Prior to that, he obtained his Master of Engineering (M.E.) degree in the same field in June 1993, focusing on the effects of tire treads on vibration transmission in automobiles. His academic journey began with a Bachelor of Engineering (B.E.) in Mechanical Engineering from Chung Yuan Christian University in June 1991. Throughout his educational career, Dr. Hu studied under the guidance of esteemed mentors, including Prof. Shyh-Chin Huang, who played a crucial role in shaping his research interests and academic pursuits.

💼 Experience

Since February 2010, Dr. Hu has served as a professor at National Ilan University, where he has significantly influenced the field of mechanical and electromechanical engineering. He held leadership positions, including Dean of the Office of Research and Development from August 2015 to July 2016 and Department Head from August 2011 to July 2015. Prior to his tenure at National Ilan University, he served in various capacities at Huafan University, where he was involved in establishing and enhancing the Mechatronic Engineering department. Dr. Hu’s extensive experience encompasses a post-doctoral research role at the Institute of Applied Mechanics at National Taiwan University, allowing him to deepen his expertise in applied mechanics. His multifaceted career reflects a commitment to research, teaching, and institutional development.

🏅Awards and Honors

Dr. Yuh-Chung Hu has received numerous accolades throughout his academic career, recognizing his contributions to mechanical engineering and research. His achievements include prestigious awards from both national and international organizations, reflecting his influence in the engineering community. Notably, his innovative research has earned him recognition in multiple conferences and journals, highlighting his role in advancing knowledge in vibrations, machine learning, and renewable energy integration. His commitment to excellence in research and teaching has established him as a respected figure in his field, inspiring students and colleagues alike. Dr. Hu’s work not only contributes to academic advancement but also impacts industry practices through his applied research initiatives.

🌍 Research Focus

Dr. Hu’s research interests lie at the intersection of mechanical engineering and emerging technologies. His focus includes industrial instruments, smart machinery, machine learning applications, and micro-electro-mechanical systems (MEMS). He is particularly interested in developing thermal dispersion flowmeters and Coriolis mass flowmeters, which play crucial roles in various industrial processes. Additionally, his research delves into vibrations and acoustics, aiming to enhance the performance of mechanical systems. Through interdisciplinary collaborations, Dr. Hu explores innovative solutions to current challenges in engineering, with a dedicated emphasis on renewable energy integration, promoting sustainable practices in engineering applications. His work continues to pave the way for advancements in smart manufacturing and instrumentation.

📖 Publication Top Notes

Title: Computational Intelligence in Cancer Diagnostics: A Contemporary Review of Smart Phone Apps, Current Problems, and Future Research Potentials
Title: Leveraging Computational Intelligence Techniques for Diagnosing Degenerative Nerve Diseases: A Comprehensive Review, Open Challenges, and Future Research Directions
Title: AI-Powered Blockchain Technology for Public Health: A Contemporary Review, Open Challenges, and Future Research Directions
Title: A Systematic Review on Machine Learning and Deep Learning Models for Electronic Information Security in Mobile Networks
Title: A Contemporary Review on Utilizing Semantic Web Technologies in Healthcare, Virtual Communities, and Ontology-Based Information Processing Systems

Yoshinori Otsuki | Gas Analysers | Best Researcher Award

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Mr. Yoshinori Otsuki | Gas Analysers | Best Researcher Award

Department Manager at HORIBA, Ltd., Japan 

Yoshinori Otsuki, born on April 25, 1979, in Japan, is a seasoned engineer specializing in automotive emissions measurement systems. With over 20 years of experience at HORIBA, LTD., he has played pivotal roles ranging from electrical designer to department manager. Otsuki’s extensive expertise encompasses particulate measurement and sampling systems, where he has led numerous successful projects, collaborating with global automotive OEMs and research institutes. His contributions to the field have earned him recognition as a thought leader in emissions regulations and measurement technology. As a dedicated member of various engineering societies, he actively shares knowledge through presentations at international conferences.

Profile:

Strengths for the Award:

  1. Extensive Experience: Yoshinori Otsuki has over 19 years of experience in research and development, particularly in particulate measurement and sampling systems within the automotive sector. His roles have evolved from an Electrical Designer to a Department Manager, showcasing his growth and leadership capabilities.
  2. Innovative Contributions: He has been involved in the development of multiple products, leading projects and coordinating with automotive OEMs and research institutions. His work on emissions measurement systems reflects a commitment to innovation and industry advancement.
  3. Patents and Publications: Otsuki holds several patents related to emissions measurement and particle counting systems, demonstrating his ability to contribute original ideas to the field. His numerous publications, particularly in prestigious journals, underline his active engagement in research and his contributions to academic discourse.
  4. Global Collaboration: His experience managing global R&D teams, particularly in Europe and Japan, indicates strong collaborative skills and the ability to work in diverse environments. His participation in international working groups and conferences further illustrates his commitment to cross-border research initiatives.
  5. Technical Expertise: With a strong academic background (Bachelor’s and Master’s in Engineering) and proficiency in both Japanese and English, Otsuki combines technical knowledge with effective communication skills, making him a valuable asset in both research and practical applications.

Areas for Improvement:

  1. Broader Engagement with Emerging Technologies: While Otsuki has made significant contributions in his current domain, exploring emerging technologies related to environmental sustainability and alternative energy sources could enhance his research portfolio and relevance in evolving markets.
  2. Networking Beyond Automotive Sector: Expanding his professional network to include researchers and industry experts from fields such as renewable energy, battery technology, or environmental policy could provide new perspectives and collaborative opportunities that may enrich his research endeavors.
  3. Enhanced Visibility in Public Forums: Increasing his participation in public forums or media discussions related to emissions and environmental impact could elevate his profile and influence in the industry, promoting awareness of his research contributions and fostering public understanding of automotive emissions issues.

Education:

Yoshinori Otsuki holds a Bachelor of Engineering from Doshisha University, obtained in March 2002, followed by a Master of Engineering from Kyoto University, completed in March 2004. His educational background in electronic engineering has equipped him with a strong foundation in circuit design and analytical systems. These qualifications have been instrumental in his career, enabling him to develop innovative solutions in automotive emissions measurement and research. Otsuki’s commitment to continuous learning and professional development is evident in his active participation in workshops and conferences related to automotive engineering and environmental science.

Experience:

Yoshinori Otsuki’s professional journey began at HORIBA, LTD. in 2004, where he progressed through various roles. Starting as an Electrical Designer, he quickly transitioned to Automotive Analytical Engineer, leading the development of particulate measurement systems. His leadership roles include R&D Team Leader and Manager of European Product Managers, where he oversaw teams focused on emissions measurement systems. Currently, as Department Manager, he manages R&D teams working on gas and particle analyzers. Otsuki’s experience includes collaboration with automotive OEMs, coordination of research projects, and participation in international working groups, highlighting his expertise and commitment to advancing automotive technologies.

Research Focus:

Yoshinori Otsuki’s research focuses on the measurement of particulate matter and emissions in automotive systems. He is particularly interested in developing innovative methodologies for solid particle number measurement and the analysis of gas emissions. His work addresses emerging regulations such as Euro 7, ensuring compliance and environmental sustainability. Otsuki actively participates in international research collaborations, contributing to projects like HORIZON2020’s PEMs4Nano. Through his publications and presentations, he aims to advance understanding and technologies related to emissions measurement, influencing industry standards and practices in automotive engineering.

Publications Top Notes:

  1. Instability of emery oil particle for 10 nm engine exhaust CPC calibration
  2. Technical Improvements of Portable Emissions Measurement System for Solid Particle Number Larger than 10 nm
  3. Development of On-board Multi-component Gas Analyzer Toward Euro 7
  4. Investigation of Equivalency between Laboratory-Grade and Portable Emissions Measurement Systems in Solid Particle Number Measurement Larger than 10 nm
  5. Measurement of Gaseous Exhaust Emissions of Light-Duty Vehicles in Preparation for Euro 7: A Comparison of Portable and Laboratory Instrumentation
  6. Towards tailpipe sub-23 nm solid particle number measurements for heavy-duty vehicles regulations
  7. Reproducibility of the 10-nm Solid Particle Number Methodology for Light-Duty Vehicles Exhaust Measurements
  8. Assessment of On-Board and Laboratory Gas Measurement Systems for Future Heavy-Duty Emissions Regulations
  9. Single vs Double Stage Partial Flow Dilution System: Automobile PM Emission Measurement

Conclusion:

Yoshinori Otsuki is a highly qualified candidate for the Research for Best Researcher Award. His extensive experience, innovative contributions, and global collaboration make him a standout researcher in the field of automotive emissions measurement. While there are areas for improvement, particularly in expanding his engagement with emerging technologies and enhancing his public profile, his strengths overwhelmingly position him as a deserving recipient of this award. His continued contributions will undoubtedly have a significant impact on both the automotive industry and environmental research.

Dr. Zhan Chen | Smart Sensors | Best Researcher Award

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Dr. Zhan Chen | Smart Sensors | Best Researcher Award

Dr. Zhan Chen, Northwestern Polytechnical University, China

Chen Zhan is a dedicated Doctoral Student at the Unmanned System Research Institute of Northwestern Polytechnical University in Xi’an, China. With a strong background in Mechatronic Engineering, he is committed to advancing the field of intelligent unmanned systems. His research emphasizes multi-agent consistency, information fusion, and UAV formation control. Chen is actively involved in innovative projects that explore state estimation and planning control, contributing significantly to the evolving landscape of autonomous technologies. With a passion for collaboration and cutting-edge research, Chen is poised to make impactful contributions to the realm of unmanned systems, making him a promising figure in the scientific community.

Professional Profile 

orcid

Summary of Suitability for the Award

Chen Zhan’s impressive academic credentials, relevant research experience, and notable contributions to the field of unmanned systems make him a suitable candidate for the Best Researcher Award. His work addresses significant challenges in UAV technology and showcases a commitment to advancing the field through innovative research. Granting him this award would not only recognize his individual efforts but also encourage continued exploration and advancement in unmanned systems research.

 🎓 Education 

Chen Zhan earned his Bachelor of Science degree in Mechatronic Engineering from Tianjin University of Science and Technology in 2018. He is currently pursuing his Ph.D. in intelligent unmanned systems science and technology at Northwestern Polytechnical University, where he is deepening his understanding of advanced technologies in autonomous systems. His academic journey has equipped him with a solid foundation in engineering principles and practical applications. Chen’s education combines theoretical knowledge with hands-on experience, enabling him to approach complex problems with innovative solutions. His commitment to academic excellence and research in unmanned systems sets a strong precedent for his future contributions to the field.

 💼 Experience 

As a Doctoral Student at the Unmanned System Research Institute, Chen Zhan has engaged in various research projects focusing on multi-agent systems and UAV technologies. His work includes developing algorithms for state estimation and guidance in unmanned aerial vehicles. In addition to his research, he collaborates with peers and mentors, contributing to academic conferences and publications that advance knowledge in the field. Chen’s experience in both individual and collaborative projects has strengthened his skills in information fusion, planning control, and game guidance. His practical experiences complement his academic background, making him well-prepared to tackle challenges in intelligent unmanned systems.

 🏅 Awards and Honors 

Chen Zhan has received recognition for his contributions to the field of unmanned systems and robotics. His innovative research on distributed information filtering methods for state estimation has garnered attention at academic conferences, leading to publications in reputable journals. Chen’s commitment to excellence has also earned him scholarships and grants to support his studies and research initiatives. His proactive approach to learning and collaboration with established researchers enhances his visibility within the academic community, paving the way for future accolades and recognition. As he progresses in his career, Chen is poised to achieve further honors that reflect his dedication and impact in the field.

 🌍 Research Focus 

Chen Zhan’s research focuses on intelligent unmanned systems, with specific interests in multi-agent consistency, information fusion, and UAV formation control. His work aims to develop robust algorithms that improve state estimation and planning control in complex environments. By exploring game guidance and multi-aircraft coordination, Chen seeks to enhance the performance and reliability of unmanned systems in various applications. His dedication to advancing knowledge in these areas is evident in his active participation in research projects and conferences. Through innovative methodologies, Chen aims to contribute to the next generation of intelligent systems, fostering advancements in autonomous technologies.

Publication Top Notes

Layout of Detection Array Based on Multi-Strategy Fusion Improved Adaptive Mayfly Algorithm in Bearing-Only Sensor Network
Distributed Cubature Information Filtering Method for State Estimation in Bearing-Only Sensor Network