Prof. fengjun tian | Optical Engineering Awards | Best Researcher Award

Prof. fengjun tian | Optical Engineering Awards | Best Researcher Award 

Prof. fengjun tian, Harbin Engineering University, China

Fengjun Tian is a distinguished professor at the College of Physics and Optoelectronic Engineering at Harbin Engineering University in Harbin, China. He earned his Ph.D. in Optics Engineering in July 2012, focusing on embedded hollow multi-core polarization maintaining fiber technology under the guidance of Dr. Libo Yuan. His academic journey began with a B.S. in Microelectronics in 2002 and an M.S. in Microelectronics and Solid-State Electronics in 2005, both from Heilongjiang University. Since joining Harbin Engineering University, he has progressed from a teaching assistant to a lecturer, and then to an associate professor before attaining his current professorship in 2024. His research primarily revolves around multi-core optical fiber technology, encompassing design, fabrication, theoretical analysis, and practical applications, including the development of various integrated optical devices. Professor Tian is actively involved in professional organizations, serving as a member of the Chinese Optical Society and the Heilongjiang Optical Society, and has contributed as a reviewer for several OSA journals. His research has been recognized through multiple grants from the National Natural Science Foundation of China, further solidifying his reputation in the field of optical engineering.

Professional Profile:

ORCID

Summary of Suitability for the Best Researcher Award: Fengjun Tian

Researcher Overview
Fengjun Tian is a highly qualified candidate for the Best Researcher Award, currently serving as a Professor in the Department of Physics at Harbin Engineering University. With a strong academic foundation and extensive research experience in optical fibre technology, he has demonstrated significant contributions to the field.

🎓 Education

  • Ph.D. in Optics Engineering (July 2012)
    Harbin Engineering University, Harbin, P.R. China
    Thesis: Embedded Hollow Multi-Core Polarization Maintaining Fibre Technology Research
    Advisor: Dr. Libo Yuan, Professor
  • M.S. in Microelectronics and Solid-State Electronics (July 2005)
    Heilongjiang University, Harbin, P.R. China
    Advisor: Dr. Dianzhong Wen, Professor
  • B.S. in Microelectronics (July 2002)
    Heilongjiang University, Harbin, P.R. China

💼 Work Experience

  • Professor (07/2024 – Present)
    Department of Physics, Harbin Engineering University
    Focus: Optical Fibre Theory and Technology (Graduate Teaching)
  • Associate Professor (09/2013 – 06/2024)
    Department of Physics, Harbin Engineering University
    Focus: Optical Fibre Theory and Technology (Graduate Teaching)
  • Lecturer (09/2007 – 08/2013)
    Department of Physics, Harbin Engineering University
    Focus: Optical Fibre Theory and Technology (Graduate Teaching)
  • Teaching Assistant (07/2005 – 08/2007)
    Department of Physics, Harbin Engineering University
    Focus: Method of Mathematics and Physics (Undergraduate Teaching)

🔬 Research Experience

  • Academic Staff (03/2006 – Present)
    Key Lab of In-fibre Integrated Optics, Ministry of Education of China

    • Focus on multi-core optical fibre technology: design, fabrication, theoretical analysis, and application.
    • Developed various in-fibre integrated optical devices, aiming to realize Photonic Chips based on multi-core optical fibres.

🏆 Awards and Grants

  • National Natural Science Foundation of China
    • Grant No. 61205027 (2013-2015)
    • Grant No. 61275094 (2013-2016)
    • Grant No. 11104043 (2012-2015)
    • Grant No. 61227013 (2013-2016)
  • Fundamental Research Funds for the Central Universities of China
    • Grant No. 3072022TS2510

🌟 Professional Activities

  • Member of the Chinese Optical Society (since 2010)
  • Council member of Heilongjiang Optical Society (since 2021)
  • Director of SPIE Student Club at Harbin Engineering University (since 2010)
  • Reviewer for OSA journals: Optics Letters, Applied Optics (since 2010)

Publication Top Notes:

A 1.62-W passively Q-switch Tm<sup>3+</sup>-doped laser with a Bi<sub>2</sub>O<sub>2</sub>Se saturable absorber

A diode-pumped SnS<sub>2</sub> passively Q-switched Tm-doped pulsed laser

A single-polarization hollow-core anti-resonant fiber based on epsilon-near-zero (ENZ) material in terahertz region

A THz fiber polarization splitter based on anti-resonant hollow-core fiber with the asymmetric dual-suspended cores

All-fiber modulator derived from the large-transverse-offset Mach-Zehnder interferometer coated with ITO

Assoc. Prof. Dr. Yeming Zhang | Structural Design Awards | Best Researcher Award

Assoc. Prof. Dr. Yeming Zhang | Structural Design Awards | Best Researcher Award

Assoc. Prof. Dr. Yeming Zhang, Henan Polytechnic University, China

Zhang Yeming is an accomplished Associate Professor at the Institute of Intelligent Mechatronic Systems, School of Mechanical and Power Engineering, Henan Polytechnic University, where he has served since January 2021. Born in August 1979 in Feicheng, Shandong, China, he earned his Ph.D. in Mechanical Electronics Engineering from Beihang University in June 2011 under the supervision of Professor Cai Maolin. Zhang has an extensive academic and professional background, including membership in several prestigious organizations, such as the Chinese Mechanical Engineering Society and the Chinese Association of Automation.

Professional Profile:

ORCID

Summary of Suitability for Best Researcher Award: Zhang Yeming

Dr. Zhang Yeming is an Associate Professor at the Institute of Intelligent Mechatronic Systems, School of Mechanical and Power Engineering, Henan Polytechnic University. With a robust academic background, including a Ph.D. in Mechanical Electronics Engineering from Beihang University, Dr. Zhang has established himself as a leading researcher in the field of intelligent control systems and mechatronics.

🎓 Education

  • Ph.D. in Mechanical Electronics Engineering
    Beihang University, 2011
    (Supervised by Professor Cai Maolin)
  • M.Eng. in Engineering
    Shandong University of Technology, 2007
    (Supervised by Professor Wei Xiuting)
  • B.Eng. in Engineering
    Yantai University, 2003

💼 Work Experience

  • Associate Professor
    School of Mechanical and Power Engineering, Henan Polytechnic University
    January 2021 – Present
  • Lecturer
    School of Mechanical and Power Engineering, Henan Polytechnic University
    June 2011 – December 2020
  • Technician
    Shandong Electric Power Construction Second Engineering Company
    July 2003 – August 2004

🏆 Achievements

  • Published over 40 scientific papers in SCI/EI/core journals
  • Granted 19 national invention patents
  • Authored 2 books

🎖️ Awards and Honors

  • First Prize of the China Mechanical Industry Science and Technology Award (2013)
  • Second Prize of the China Instrument and Control Society Science and Technology Progress Award (2022)
  • Two Third Prizes of the China Coal Industry Science and Technology Award (2018, 2022)
  • Third Prize of the 7th Henan Coal Mine Safety Production Science and Technology Progress Award (2016)
  • Second Prize of Henan Province’s Natural Science Excellent Academic Paper
  • Three Second Prizes from the Provincial Department of Education (ranked 1st)
  • Outstanding Teacher of Henan Polytechnic University for the academic years 2019-2020 and 2014-2015
  • Excellent Instructor for the 14th Challenge Cup Henan Province College Students’ Extracurricular Academic Science and Technology Competition (2019)
  • Excellent Instructor Award for the “Yuntaishan Cup” China Henan – U.S. Regional College Students’ Innovation and Entrepreneurship Competition (2015)

Publication Top Notes:

Structural Design and Control Performance Study of Flexible Finger Mechanisms for Robot End Effectors

Research on Surface Defect Detection of Strip Steel Based on Improved YOLOv7
Medical Grabbing Servo System with Friction Compensation Based on the Differential Evolution Algorithm
Analysis of Power Matching on Energy Savings of a Pneumatic Rotary Actuator Servo-Control System
Nonlinear Model Establishment and Experimental Verification of a Pneumatic Rotary Actuator Position Servo System

Yoshinori Otsuki | Gas Analysers | Best Researcher Award

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.

Amirreza Mehrabi | Engineering Education | Best Researcher Award

Mr. Amirreza Mehrabi | Engineering Education | Best Researcher Award

Researcher at Purdue, United States

Amirreza Mehrabi is a dedicated Ph.D. candidate in Engineering Education at Purdue University, specializing in cognitive fatigue modeling during examinations. With a strong interdisciplinary background in engineering and education, he combines advanced statistical methods and machine learning to optimize assessment strategies. A passionate advocate for innovative educational practices, Amirreza actively engages in research that enhances student learning experiences. His leadership roles include heading the ASEE student chapter at Purdue and contributing to the Purdue Graduate Student Government. Amirreza’s commitment to excellence is reflected in his numerous publications and contributions to engineering education.

Profile:

Strengths for the Award:

  1. Academic Excellence:
    • Amirreza’s impressive GPA of 3.94 in his Ph.D. program demonstrates a strong academic foundation and commitment to excellence in his field.
  2. Diverse Research Contributions:
    • His research encompasses various innovative topics such as cognitive fatigue modeling, computer adaptive testing, and the impacts of COVID-19 on education. This breadth indicates versatility and relevance in current educational challenges.
  3. Publication Record:
    • Amirreza has authored multiple papers and book chapters, including works in notable journals and conference proceedings, showcasing his ability to contribute significantly to academic discourse.
  4. Leadership and Engagement:
    • Serving as the head of the ASEE student chapter and a PR team member reflects strong leadership skills and a commitment to fostering community within the academic environment.
  5. Recognition and Awards:
    • His receipt of prestigious awards, including the GOLD medal at the Industrial Engineering Olympiad, highlights his exceptional capabilities and recognition among peers.
  6. Collaborative Projects:
    • Participation in significant research projects, such as the NSF-funded CD_CAT project, underscores his collaborative spirit and ability to work on impactful initiatives.
  7. Teaching and Mentoring Experience:
    • His roles as a teaching assistant and mentor indicate his dedication to education and the development of future engineers.

Areas for Improvement:

  1. Broader Impact of Research:
    • While Amirreza’s work is innovative, articulating the broader implications of his research for industry and educational policy could enhance its impact and visibility.
  2. Networking and Collaboration:
    • Increasing engagement with interdisciplinary teams or broader academic networks may lead to richer collaborations and new research perspectives.
  3. Public Outreach:
    • More initiatives focused on translating research findings into practice or engaging with the community could amplify his research’s societal impact.
  4. Presentation Skills:
    • Continuing to refine presentation skills at conferences will ensure his research is communicated effectively and reaches diverse audiences.

Education:

Amirreza Mehrabi is pursuing a Ph.D. in Engineering Education at Purdue University, with an expected graduation in 2027. He holds a Master’s degree in Electronic and Computer Engineering from Purdue and another in Engineering Education from the University of Tehran, where he graduated with a perfect GPA. His undergraduate degree in Industrial Engineering was obtained from Sharif University of Technology, where he developed a strong foundation in engineering principles. His academic journey is marked by rigorous research and a focus on the application of advanced statistical methodologies to improve educational outcomes.

Experience:

Amirreza has substantial research experience, currently working on the CD_CAT project at Purdue University, where he assists in implementing computer adaptive testing. His work involves designing models to assess cognitive fatigue and applying machine learning techniques to optimize educational assessments. Previously, he served as a data analyst for the Erasmus Plus Project, collaborating with several Iranian universities. Additionally, Amirreza has volunteered on various research initiatives focused on online learning preferences and educational innovation. His teaching experience includes mentoring first-year PhD students and serving as a teaching assistant for multiple engineering courses.

Awards and Honors:

Amirreza’s accomplishments include receiving the prestigious GOLD medal in the Industrial Engineering Olympiad in Iran, a testament to his academic excellence. He has also been recognized as the first-ranked student in Engineering Education in Iran by UNESCO. At Purdue, he leads the ASEE student chapter and has earned a $1,000 travel grant for conference participation. His dedication to engineering education and research has garnered him recognition in various forms, including the ENERGY GLOBE National Award for innovative supply chain management in agriculture.

Research Focus:

Amirreza’s research primarily explores cognitive fatigue in engineering education, utilizing methods such as pupil dilation and MRI analyses. He investigates how cognitive fatigue affects student performance during assessments, aiming to develop adaptive testing strategies that enhance learning outcomes. His work includes the application of machine learning techniques to create dynamic assessment tools that respond to students’ cognitive states. By focusing on innovative educational practices, Amirreza aims to contribute significantly to the field of engineering education and improve the overall learning experience for students.

Publications Top Notes:

  • Investigating and predicting the Cognitive Fatigue Threshold as a Factor of Performance Reduction in Assessment.
  • AI Skills-based Assessment Tool for Identifying Partial and Full-Mastery within Large Engineering Classrooms.
  • AI-Based Concept Inventories: Using Cognitive Diagnostic Computer Adaptive Testing in LASSO for Classroom Assessment.
  • AI-Enhanced Decision-Making for Course Modality Preferences in Higher Engineering Education during the Post-COVID-19 Era.
  • Optimizing Maximum Likelihood Estimation in Performance Factor Analysis: A Comparative Study of Estimation Methods.
  • A new semi-empirical wind turbine capacity factor for maximizing annual electricity and hydrogen production.

Conclusion:

Amirreza Mehrabi is an exemplary candidate for the Research for Best Researcher Award, demonstrating exceptional academic performance, a diverse range of impactful research, and strong leadership qualities. His contributions to engineering education and commitment to innovation position him as a valuable asset to the academic community. With slight improvements in outreach and collaboration, Amirreza can further enhance the impact of his research. Awarding him this recognition would not only honor his achievements but also encourage continued excellence and innovation in engineering education.