Chang Soo Kim | Engineering | Best Researcher Award

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Prof. Chang Soo Kim | Engineering | Best Researcher Award

Professor | Pukyong National University | South Korea

Professor. Chang Soo Kim is a distinguished Full Professor in the Division of Computer and AI Engineering at PuKyong National University, recognized for his expertise in intelligent manufacturing systems, artificial intelligence, and computational optimization. He holds advanced degrees in computer science with specialization in AI-driven optimization and machine learning, forming the foundation for his multidisciplinary research career. Throughout his long-standing academic tenure, he has served in key leadership roles including department chair, graduate program administrator, research center director, and executive leader for university–industry cooperation, successfully guiding large-scale projects, fostering collaborative innovation, and advancing strategic academic initiatives. His research focuses on flexible job shop scheduling, deep learning–based fault diagnosis, time-series forecasting, metaheuristic optimization, and smart industrial systems. He has produced an extensive portfolio of influential publications in high-impact SCI-indexed journals, contributing novel hybrid algorithms, trainable fusion strategies, adaptive scheduling frameworks, lightweight diagnostic models, and intelligent computational methods that support the evolution of smart manufacturing and data-driven engineering. His scholarly achievements have earned him multiple recognitions, including awards for research excellence, and he actively contributes to the global academic community through editorial service, participation in professional societies, and engagement in scientific committees. With a sustained record of innovative research, academic leadership, and impactful contributions to computer and AI engineering, Professor Chang Soo Kim exemplifies the qualities of a leading researcher whose work continues to influence both industry and academia.

Profiles:  Scopus

Featured Publications

1. Kim, C. S., et al. (2025). Flexible job shop scheduling optimization with multiple criteria using a hybrid metaheuristic framework. Processes.

2. Kim, C. S., et al. (2025). Multi-branch global Transformer-assisted network for fault diagnosis. Applied Soft Computing.

3. Kim, C. S., et al. (2025). DL-MSCNN: A general and lightweight framework for fault diagnosis with limited training samples. Journal of Intelligent Manufacturing.

4. Kim, C. S., et al. (2025). Enhanced quantum-based DNA sequence alignment with noise handling and error detection. IEEE Access.

5. Kim, C. S., et al. (2024). GAILS: An effective multi-object job shop scheduler based on genetic algorithm and iterative local search. Scientific Reports.

Professor Chang Soo Kim’s pioneering research in intelligent manufacturing, AI-driven optimization, and fault diagnosis advances the scientific foundations of smart industry while enabling more efficient, reliable, and data-driven production systems. His innovative computational frameworks and adaptive algorithms contribute directly to industrial digital transformation, fostering technological competitiveness and sustainable global innovation.

Sayyid Ali Banihashemi | Engineering | Editorial Board Member

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Assist. Prof. Dr. Sayyid Ali Banihashemi | Engineering | Editorial Board Member

Faculty Member | Payame Noor University | Iran

Assist. Prof. Dr. Sayyid Ali Banihashemi, Associate Professor in the Department of Industrial Engineering at Payame Noor University, is a recognized scholar specializing in project scheduling, data envelopment analysis, supply chain management, and organizational agility. He holds advanced degrees in industrial engineering with a concentration in operations research and performance evaluation, complemented by rigorous training in quantitative decision-making. His professional experience includes leading academic programs, supervising research initiatives, and contributing to major analytical and optimization projects that support organizational and operational improvement. Dr. Banihashemi’s research portfolio encompasses influential publications, high-impact citations, and methodological advancements that have shaped contemporary practices in project planning efficiency, productivity assessment, and supply chain performance. His scholarly contributions are further reflected in editorial responsibilities for reputable journals, memberships in distinguished professional societies, and certifications in advanced analytical methods. Widely cited and respected in his field, he has earned multiple recognitions for research excellence, academic service, and contributions to the industrial engineering community, establishing him as a dedicated leader committed to advancing theory and practice in operations and performance management.

Profiles: Google Scholar

Featured Publications

1. Dahmardeh, N., & Banihashemi, S. A. (2010). Organizational agility and agile manufacturing. European Journal of Economics, Finance and Administrative Sciences, 27, 178–184.

2. Banihashemi, S. A. (2011). The role of communication to improve organizational process. European Journal of Humanities and Social Sciences, 1(1), 13–24.

3. Banihashemi, S. A., Khalilzadeh, M., Shahraki, A., Malkhalifeh, M. R. M., & others. (2020). Optimization of environmental impacts of construction projects: A time–cost–quality trade-off approach. International Journal of Environmental Science and Technology, 1–16.

4. Banihashemi, S. A., & Khalilzadeh, M. (2021). Time-cost-quality–environmental impact trade-off resource-constrained project scheduling problem with DEA approach. Engineering, Construction and Architectural Management, 28(7), 1979–2004.

5. Banihashemi, S. A., Khalilzadeh, M., Antucheviciene, J., & Edalatpanah, S. A. (2023). Identifying and prioritizing the challenges and obstacles of green supply chain management in the construction industry using the fuzzy BWM method. Buildings, 13(1), 38.

Dr. Sayyid Ali Banihashemi’s work advances scientific and industrial practice by integrating optimization, sustainability, and performance evaluation to improve project delivery and supply chain systems. His research supports data-driven decision-making that enhances organizational efficiency, reduces environmental impacts, and strengthens the resilience and agility of modern industries.

Dongfeng Qi | Engineering | Best Researcher Award

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Prof. Dongfeng Qi | Engineering | Best Researcher Award

Professor | Shandong University of Technology | China

Prof. Dongfeng Qi is a leading researcher in laser manufacturing and material processing, specializing in femtosecond and nanosecond laser applications for advanced materials and flexible electronics. His work integrates theoretical modeling with experimental techniques to develop innovative micro- and nanostructures, including copper and silicon-based materials, phase-change films, and smart electronic devices. Prof. Qi has made substantial contributions to understanding laser-material interactions and patterning technologies, with high-impact publications in top-tier journals. He demonstrates strong interdisciplinary collaboration and mentorship, fostering international research partnerships and the growth of emerging scientists. His research is recognized for both fundamental insights and practical applications in photonics, energy storage, and flexible electronics. Prof. Qi’s consistent innovation, high-quality experimental work, and leadership in the field establish him as a leading figure in laser-based materials science. According to Scopus, he has 535 citations, 71 documents, and an h-index of 13.

Profiles: Scopus | Google Scholar

Featured Publications

1. Programming nanoparticles in multiscale: optically modulated assembly and phase switching of silicon nanoparticle array; L. Wang, Y. Rho, W. Shou, S. Hong, K. Kato, M. Eliceiri, M. Shi, …; ACS Nano, vol. 12, no. 3, pp. 2231–2241, 2018; 39 citations

2. Time-resolved analysis of thickness-dependent dewetting and ablation of silver films upon nanosecond laser irradiation; D. Qi, D. Paeng, J. Yeo, E. Kim, L. Wang, S. Chen, C. P. Grigoropoulos; Applied Physics Letters, vol. 108, no. 21, 2016; 37 citations

3. Femtosecond laser-induced large area of periodic structures on chalcogenide glass via twice laser direct-writing scanning process; X. Yu, Q. Zhang, D. Qi, S. Tang, S. Dai, P. Zhang, Y. Xu, X. Shen; Optics & Laser Technology, vol. 124, 105977, 2020; 34 citations

4. Progress in the design, nanofabrication, and performance of metalenses; Z. Wang, Y. Wu, D. Qi, W. Yu, H. Zheng; Journal of Optics, vol. 24, no. 3, 033001, 2022; 31 citations

5. Progress in preparation and applications of Te-As-Se chalcogenide glasses and fibers; Z. Wu, Y. Xu, D. Qi, Q. Nie, X. Zhang; Infrared Physics & Technology, vol. 102, 102981, 2019; 31 citations

Ivett Greta Zsak | Engineering | Best Researcher Award

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Ms. Ivett Greta Zsak | Engineering | Best Researcher Award

Ivett Greta Zsak | Technical University of Cluj-Napoca | Romania

Ms. Ivett-Gréta Zsák is an accomplished architect, lecturer, and PhD candidate with a strong focus on sustainable architecture, heritage preservation, and adaptive design. She has developed innovative frameworks, notably the Building Identity Passport for prefabricated housing rehabilitation, reflecting a unique integration of health, community engagement, and building performance. Her work demonstrates a balance between academic rigor and practical implementation, including coordinating heritage interventions and contributing to national architectural guidelines. She has actively participated in international conferences, showcasing thought leadership and fostering cross-cultural collaboration. Her technical proficiency in BIM, AutoCAD, and participatory design tools enhances her research’s practical impact, while her multilingual skills allow effective engagement in diverse academic environments. Recognized with multiple architecture awards, Ms. Zsák exemplifies a researcher whose work bridges theory and practice. Her research is measurable in Scopus, with 2 documents cited by 11 sources and an h-index of 2, demonstrating both productivity and scholarly influence.

Profile: Scopus | ORCID

Featured Publications

1. C. Savu, A.-H. Pescaru, I.-G. Zsak, A.-M. Durgheu, A.-P. Frent, N.-S. Suba, A. S. Buda, and S. Nistor, “Analysis on Using 3D Scanning and BIM to Reduce the Physical and Non-Physical Construction Waste for Sustainable Fireproofing of Steel Trusses,” Sustainability, Feb. 2024.

2. G. I. Zsak, “Ghiduri de arhitectură pentru încadrarea în specificul local din mediul rural,” The Order of Architects of Romania, Mar. 2020.

3. G. I. Zsak, “Regeneration of the industrial heritage in the central area of Oradea,” Materials Science and Engineering, vol. 603, Sep. 2019.

Fred Lang | Engineering | Best Researcher Award

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Mr. Fred Lang | Engineering | Best Researcher Award

President at Exergetic Systems Limited, United States

Fred D. Lang, P.E., P.Eng., is a distinguished power plant engineer with over 50 years of experience in energy systems, nuclear safety, and thermal performance monitoring. Renowned across North America and Europe, he has significantly contributed to power plant engineering through software innovation, advanced testing methodologies, and novel monitoring techniques. As the President of Exergetic Systems Limited, he has developed industry-transforming tools for power plant efficiency and safety. His contributions include consulting for major utilities and government agencies in the U.S., Canada, Sweden, and Japan, focusing on nuclear safety, fossil emissions monitoring, and performance analysis. Lang’s expertise spans simulation, plant design, exergy analysis, and fuel efficiency optimization, making him a leader in the energy sector. His commitment to research and technological advancements has led to groundbreaking methodologies that enhance power plant performance and operational safety, earning him a reputation as an innovator in the field.

Professional Profile

Education

Fred D. Lang has a strong academic background in nuclear engineering, mechanical engineering, and business administration. He earned his Bachelor of Science in Nuclear Engineering from Kansas State University, where he developed a deep understanding of power generation and reactor safety. He further advanced his expertise with a Master of Science in Mechanical Engineering from the University of Idaho, completing coursework at the Idaho National Laboratory, a leading nuclear research facility. To complement his technical knowledge with management skills, he pursued a Master of Business Administration (MBA) from the University of Oregon. In addition to his formal degrees, Lang holds several professional certifications, including a California Energy Auditor Certificate (#5872). He is a licensed Professional Engineer (P.E.) in California for mechanical and nuclear engineering and an active P.Eng. in British Columbia (#54236). His diverse educational background has provided him with the expertise to drive innovation in power plant engineering.

Professional Experience

Fred D. Lang has had an illustrious career spanning over five decades in power plant engineering. He is the President of Exergetic Systems Limited, a company specializing in power plant performance monitoring and efficiency solutions. Previously, he founded and led Exergetic Systems, Inc., which for nearly 40 years served major utilities across North America with software and engineering services. Lang is known as the “Father of PEPSE,” a widely used power plant simulation software. His expertise includes thermodynamic analysis, emissions monitoring, and nuclear safety systems. He has conducted hundreds of power plant studies and has been involved in 33 thermal performance evaluation projects, each lasting several months. His professional experience also includes consulting for Babcock & Wilcox, Exxon Nuclear (now Framatome), and government agencies in Sweden and Japan on critical nuclear safety issues. His work has shaped modern approaches to fuel monitoring, efficiency testing, and safety in power generation.

Research Interests

Fred D. Lang’s research focuses on power plant thermodynamics, nuclear safety, emissions monitoring, and exergy analysis. His work aims to enhance the efficiency, safety, and sustainability of fossil-fuel and nuclear power plants. A major area of his research is the development of advanced monitoring techniques, such as the Input/Loss Method, which allows real-time determination of fuel chemistry, calorific value, and heat rate in coal-fired power plants. Another significant contribution is the NCV Method, a groundbreaking approach to nuclear reactor monitoring, neutron flux measurement, and coolant flow analysis, which improves nuclear safety. Lang has also developed innovative instrumentation for emissions testing, heat balance analysis, and fuel efficiency optimization. His research integrates software development, thermodynamic modeling, and real-world application, ensuring that power plants operate more efficiently while reducing environmental impact. His findings have led to significant improvements in plant performance and fuel economy worldwide.

Awards and Honors

Fred D. Lang has received numerous accolades for his contributions to power plant engineering and nuclear safety. He holds 38 patents, including 22 in the U.S. and 16 in Canada, Australia, and Europe, covering innovations in power plant instrumentation, Rankine cycle modifications, and emissions monitoring technologies. His pioneering Input/Loss Method and NCV Method have been recognized as transformative advancements in the energy sector. Lang has been invited by major utilities and government agencies to develop new technologies, including a 2021 invitation to design a novel nuclear plant monitoring system. His software tools, such as PEPSE, EX-FOSS, and THERM, are used by leading power utilities worldwide. In addition to his technical achievements, he has been honored for his mentorship and leadership in the engineering field. His work has redefined power plant efficiency, fuel monitoring, and nuclear safety standards, earning him a reputation as a pioneer in the industry.

Conclusion

Fred D. Lang is a highly deserving candidate for the Best Researcher Award, given his profound contributions to power plant engineering, groundbreaking patents, and practical innovations in thermal performance and nuclear safety. While strengthening academic publications and mentorship efforts could further solidify his influence, his technical advancements have already had a significant impact on the industry. His work represents a paradigm shift in power plant monitoring and nuclear reactor safety, making him a strong contender for this recognition.

Publications Top Noted

  • Lang, F. D. (Year Unknown). “Verified Knowledge of Nuclear Power Plants Using the NCV Method.” Conference Paper. Citations: 0

  • Lang, F. D., Mason, D., & Rodgers, D. A. T. (Year Unknown). “Effects on Boiler Efficiency Standards and Computed Coal Flow Given Variable Ambient Oxygen and Humidity.” Conference Paper. Citations: 0

 

Tibor Krenicky | Engineering | Best Researcher Award

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Assoc Prof Dr. Tibor Krenicky | Engineering | Best Researcher Award

Assoc. Prof. Technical University of Košice, Slovakia

Tibor Krenicky is an esteemed Associate Professor at the Faculty of Manufacturing Technologies, Technical University of Košice, Slovakia. With a Ph.D. in Physics, he specializes in technical device design and monitoring, contributing significantly to national and international research projects. His dedication to advancing engineering education and research is complemented by his extensive editorial roles in various scientific journals. 🌟

Publication Profile

ORCID

 

Education

Tibor graduated in Physics from the Faculty of Mathematics and Physics of Comenius University in Bratislava in 1999. He earned his Ph.D. in 2005 from the Institute of Experimental Physics at the Slovak Academy of Sciences, specializing in nanotechnology as a member of the Centre of Excellence NANOSMART. 🎓

Experience

Beginning his teaching career in 2005 at the Technical University of Košice, Tibor has served as Deputy Head of his department for 12 years. He has been actively involved in developing innovative solutions for technical systems and materials through multiparametric monitoring and virtual instrumentation. 🛠️

Research Focus

Tibor’s research focuses on the simulation, determination, and evaluation of operating parameters and the operational status of technical materials and systems. He also designs and implements experimental devices for the diagnostics of technical systems, emphasizing knowledge exchange and international collaboration. 🔍

Awards and Honours

He was part of the research team recognized for “The most important result of the Slovak Academy of Sciences scientific work in 2004” for developing new nanocrystalline soft magnetic alloys suitable for high-temperature applications. 🏆

Publication Top Notes

Tibor has an impressive publication record, with significant contributions to various journals. Here are a few highlights of his work:

“Simulation of Operating Parameters in Technical Systems.” Applied Mechanics and Materials, 866, 221-226. Cited by: 15

“Advanced Techniques in Monitoring Technical Devices.” Management Systems in Production Engineering, 25(3), 13-17. Cited by: 10

“Innovations in Virtual Instrumentation for Technical Diagnostics.” MM Science Journal, 2020, 2310-2314. Cited by: 5

Akash Sood | Engineering | Best Researcher Award

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Mr. Akash Sood | Engineering | Best Researcher Award

Research Scholar at Sant Longowal Institute of Engineering and Technology, India

Akash Sood is a dedicated Ph.D. research scholar specializing in carbon dioxide capture and sequestration at the Sant Longowal Institute of Engineering and Technology, Punjab. He has a remarkable academic record, including an M.Tech. in Energy Technology with a CGPA of 8.71, where he ranked second in his university, and a B.E. in Mechanical Engineering, where he was the college topper. Akash has authored several impactful research papers and holds seven patents, showcasing his innovative approach to engineering challenges. His accolades include the Bharat Vikas Award for contributions to the energy and environment sector and recognition for his research on steering system design. With proficiency in various engineering software and training in reputable organizations, he has practical experience in manufacturing and power generation. Fluent in English, Hindi, and Punjabi, Akash is poised to make significant contributions to environmental sustainability through his ongoing research and future innovations.

Publication Profile

Scopus

Strengths for the Award:

  1. Academic Excellence:
    • Currently pursuing a Ph.D. in Carbon Dioxide Capture and Sequestration, showing a commitment to advancing knowledge in a critical area.
    • Achieved high academic standing throughout his educational career, including second rank in M.Tech. and college topper in B.E.
  2. Research Contributions:
    • Authored several papers on carbon capture technologies, indicating deep knowledge and contribution to the field.
    • Holds 7 patents which demonstrate innovative thinking and the ability to translate research into practical applications.
  3. Awards and Recognition:
    • Received the Bharat Vikas Award (2018) for contributions in energy and environment, showcasing recognition from credible organizations.
    • Awarded for best paper for developing new mathematical models, indicating strong research capabilities.
  4. Practical Experience:
    • Completed multiple training sessions in reputed organizations, gaining practical experience in manufacturing and power generation processes.
    • Actively participated in a national-level competition, serving as vice-captain, which reflects leadership and teamwork skills.
  5. Technical Skills:
    • Proficient in a wide range of engineering and design software (e.g., AutoCAD, SolidWorks, MATLAB), which is essential for conducting modern engineering research.
  6. Multilingual Communication:
    • Fluent in English, Hindi, and Punjabi, which facilitates effective communication in diverse research environments.

Areas for Improvement:

  1. Public Speaking and Presentation Skills:
    • While he has published papers and patents, enhancing his public speaking skills could help him effectively share his findings at conferences and seminars, thereby broadening his impact.
  2. Networking and Collaboration:
    • Although he has a solid foundation in research, seeking collaboration with more established researchers or institutions could enhance the visibility and reach of his work.
  3. Project Management:
    • Gaining more experience in managing large-scale research projects could help in the successful execution of complex projects, particularly in interdisciplinary settings.
  4. Outreach and Community Engagement:
    • Engaging more with the community and industry to demonstrate the practical applications of his research could increase awareness and foster support for carbon capture initiatives.

Education:

Akash Sood has an impressive educational background, currently pursuing a Ph.D. in Carbon Dioxide Capture and Sequestration at the Sant Longowal Institute of Engineering and Technology in Punjab, which he commenced in 2018. He earned his M.Tech. in Energy Technology with a commendable CGPA of 8.71, securing the second rank in his university during his studies from 2014 to 2017 at the School of Energy and Environment Management, Rajiv Gandhi Proudyogiki Vishwavidyalaya in Bhopal. Prior to that, he completed his Bachelor of Engineering in Mechanical Engineering from the Malwa Institute of Technology and Management, also part of Rajiv Gandhi Proudyogiki Vishwavidyalaya, where he was the college topper with a CGPA of 7.57. Notably, he performed exceptionally well in the GATE 2014 examination, achieving a percentile above 92. Akash’s academic achievements reflect his dedication and excellence in his field, laying a strong foundation for his research and professional endeavors.

Experience:

Akash Sood has garnered valuable practical experience through various training programs and projects that complement his academic pursuits. He completed a 15-day training at the Railway Wagon Workshop in Jhansi, where he learned about manufacturing processes and periodic overhauling of railway wagons. He further enhanced his understanding of power generation through a one-month training at Indraprastha Power Generation Corporation Limited in Delhi, focusing on workflow in coal and gas-based power plants. Additionally, he participated in a two-day training at the Maruti Center for Excellence in Gurugram, where he gained insights into new product development processes, including Failure Mode and Effects Analysis (FMEA), Advanced Product Quality Planning (APQP), and Production Part Approval Process (PPAP). Moreover, as the vice-captain and technical head of a 25-member team for the Mahindra BAJA SAE India 2014 competition, Akash played a key role in designing and developing an All-Terrain Vehicle, showcasing his leadership and teamwork abilities in a competitive environment. This diverse experience equips him with a practical understanding of engineering applications and reinforces his commitment to addressing contemporary technological challenges.

Research Focus:

Akash Sood’s research focuses on carbon dioxide capture and sequestration (CCS), a critical area in addressing climate change and reducing greenhouse gas emissions. His work involves developing and testing innovative methods for capturing CO2 using various amine-based solvents, as well as creating a pilot-scale CCS unit to evaluate the effectiveness of these solvents in industrial applications. He has authored several scholarly articles on advancements in membrane-based and ionic liquid technologies for carbon capture, contributing to the body of knowledge in this field. In addition to his academic research, Akash has secured multiple patents, showcasing his ability to translate theoretical concepts into practical solutions. His commitment to sustainable engineering solutions is further reflected in his aim to launch active CCS environments that can mitigate CO2 emissions on a larger scale.

Awards and Honors:

Akash Sood has received notable recognition for his contributions in the field of energy and environment. He was awarded the Bharat Vikas Award in 2018 for his significant work in the energy sector. Additionally, he earned the Best Paper Award for developing an innovative mathematical model for steering system design. His achievements include participation as vice-captain and technical head in the Mahindra BAJA SAE INDIA 2014 competition, where he led a team to design and develop an All-Terrain Vehicle for a national-level event. Throughout his academic journey, he has authored multiple publications and holds seven patents, showcasing his innovative approach and commitment to advancing technology in carbon dioxide capture and sequestration.

Publication Top Notes:

  • A mini review: Polymer-matrix nanocomposites and its synthesis techniques
    • Authors: Bhatia, P., Pachauri, A., Sood, A., Gaur, M.K.
    • Year: 2019
    • Citations: 3
  • Experimental investigation of physical and tribological properties of engine oil with nano-particles additives
    • Authors: Gaur, M.K., Singh, S.K., Sood, A., Chauhan, D.S.
    • Year: 2019
    • Citations: 1
  • Carbon dioxide capture efficiency determination for post combustion capture through MEA using Aspen HYSYS at low pressure
    • Authors: Sood, A., Vyas, S.
    • Year: 2018
    • Citations: 1
  • Carbon Capture and Sequestration- A Review
    • Authors: Sood, A., Vyas, S.
    • Year: 2017
    • Citations: 26
  • A review: Carbon Capture and Sequestration (CCS) in India
    • Authors: Sood, A., Vyas, S.
    • Year: 2017
    • Citations: 16

Conclusion:

Akash Sood is a promising candidate for the Best Researcher Award. His strong academic background, significant contributions to the field of carbon dioxide capture and sequestration, and innovative mindset reflected through patents highlight his potential. While there are areas where he can improve, such as public speaking and project management, his strengths considerably outweigh them. His ongoing efforts to develop technologies that can reduce CO2 emissions demonstrate a commitment to addressing environmental challenges, making him not only a deserving candidate for the award but also a valuable asset to the field of mechanical engineering and environmental sustainability.

Liheng Wu | Engineering | Best Paper Award

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Ms. Liheng Wu | Engineering | Best Paper Award

postdoc researcher, Southeast University, China

Liheng Wu is a dedicated researcher from China, specializing in kinematics, dynamics, compliant mechanisms, and robotics. Currently serving as a postdoctoral researcher in Civil Engineering at Southeast University, he has a strong foundation in mechanical engineering, holding a Ph.D. from Tianjin University. Liheng is passionate about innovative engineering solutions, particularly in tensegrity structures and metamaterials. 🌍🔧

Publication Profile

Scopus

Strengths for the Award

  1. Diverse Research Areas: Liheng’s expertise spans kinematics, dynamics, compliant mechanisms, robotics, and metamaterials, showcasing a versatile skill set.
  2. Innovative Contributions: His published works demonstrate significant advancements, such as: The development of a matrix method for linkages. Novel tensegrity structures and their stability analyses, indicating his ability to push the boundaries of current research.
  3. High-Quality Publications: Liheng has published in reputable journals and conferences, which speaks to the quality and impact of his research. His papers cover both theoretical advancements and practical applications, enhancing their relevance.
  4. Research Highlights: His contributions to higher-order curvature analysis, new mechanisms, and solitary waves in transmission networks illustrate his ability to tackle complex problems in mechanical engineering.

Areas for Improvement

  1. Broader Collaboration: While Liheng has worked with notable co-authors, expanding his collaboration network could enhance the interdisciplinary nature of his work, potentially attracting diverse perspectives and ideas.
  2. Application Focus: Emphasizing real-world applications or case studies in his future research could improve the practical impact of his findings and make them more accessible to industry stakeholders.
  3. Presentation Skills: Engaging more in public speaking or presentations at conferences may enhance his visibility in the research community and foster connections that can lead to future collaborations.

Education

Liheng completed his Ph.D. in Mechanical Engineering at Tianjin University in 2020, following his M.S. from Hebei University of Technology in 2013 and a B. Eng. from Chongqing Business and Technology University in 2010. His academic journey reflects a robust commitment to advancing mechanical engineering principles. 🎓📚

Experience

Liheng is currently a postdoctoral researcher at Southeast University, where he applies his expertise in mechanics and robotics to various engineering challenges. His previous academic roles have equipped him with substantial knowledge and skills in both theoretical and practical aspects of mechanical systems. 🛠️💼

Research Focus

His research interests include kinematics, dynamics, compliant mechanisms, tensegrity structures, morphing wings, and soliton behavior in metamaterials. Liheng is particularly focused on the development of novel mechanical designs that enhance performance and functionality in engineering applications. 🔍✨

Awards and Honours

Liheng has received recognition for his innovative contributions to mechanical engineering, including awards for his published research and presentations at international conferences. His work has garnered attention for its practical implications in advanced engineering fields. 🏆🌟

Publication Top Notes

A matrix method to determine infinitesimally mobile linkages with only first-order infinitesimal mobility (2020, Mechanisms and Machine Theory)

A novel tensegrity structure derived by the linkage-truss transformation and prestress-stability analysis using screw theory (2020, Journal of Mechanical Design, Transactions of the ASME)

Matrix Analysis of Second-Order Kinematic Constraints of Single-Loop Linkages with Screw Coordinates (2018, Proceedings of the ASME International Design Engineering Technical Conferences)

Analyzing Higher-Order Curvature of Four-Bar Linkages with Derivatives of Screws (2024, Machines)

Generalized prismatic tensegrity derived by dihedral symmetric lines (2024, International Journal of Solids and Structures, accepted)

Conclusion

Liheng Wu’s impressive academic background and innovative research make him a strong candidate for the Research for Best Paper Award. His contributions to the fields of kinematics and tensegrity structures are particularly noteworthy. By addressing areas for improvement, such as enhancing collaboration and emphasizing practical applications, he can further elevate his impact in the engineering community.

 

SATYAVARTA KUMAR PRINCE | Engineering | Best Researcher Award

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Dr. SATYAVARTA KUMAR PRINCE | Engineering | Best Researcher Award

Ph.D, National Institute of Technology, Meghalaya, India

🎓 Dr. Satyavarta Kumar Prince is a distinguished Electrical Engineer with a Ph.D. from NIT Meghalaya. He has gained expertise in the protection schemes for DC microgrids, particularly in grid-connected and islanded modes. As a Research Associate at NIT Meghalaya, he has contributed significantly to the field of Electrical Engineering, focusing on power quality and microgrid protection.

Publication Profile

Google Scholar

Strengths for the Award:

  1. Academic Background: Dr. Satyavarta Kumar Prince has a solid academic foundation with a Ph.D. in Electrical Engineering from NIT Meghalaya. His research is focused on protection schemes for DC microgrids, a cutting-edge topic in electrical engineering.
  2. Research Experience: As a Research Associate at NIT Meghalaya, he gained practical experience in his field, contributing to his depth of knowledge and expertise.
  3. Publications: He has published multiple papers in high-impact journals, such as IEEE Transactions on Industry Applications and International Journal of Green Energy, showcasing his contributions to the field of electrical engineering, particularly in the area of microgrid protection.
  4. Recognition: His work has been recognized by the scientific community, as evidenced by his publications in well-regarded journals with substantial impact factors.
  5. GATE Qualification: He qualified for GATE twice, demonstrating his strong grasp of electrical and electronics engineering principles.

Areas for Improvement:

  1. Broader Impact: While his research is impressive, the focus is primarily on DC microgrids. Expanding his research to include other areas of electrical engineering could enhance his profile.
  2. Professional Development: Engaging in additional research projects, collaborations, or gaining international exposure could further bolster his candidacy.
  3. Teaching and Mentorship: There is no mention of teaching or mentorship roles, which are often valued in research awards. Contributing to the academic growth of others could be an area for development.
  4. Leadership Roles: Involvement in leading research projects, conferences, or professional organizations could strengthen his profile.

 

Education

🎓 Dr. Prince completed his Ph.D. in Electrical Engineering from NIT Meghalaya in 2023, achieving a CGPA of 8.60. His doctoral research focused on protection schemes for DC microgrids. He also holds an M.Tech. in Power and Energy Systems from NIT Meghalaya, completed in 2018, and a B.Tech. in Electrical and Electronics Engineering from Magadh University, where he graduated with 72.89% in 2011.

Experience

💼 Dr. Prince served as a Research Associate in the Electrical Engineering Department at NIT Meghalaya from March 2023 to November 2023. His work involved advanced research on microgrid protection schemes, contributing to the academic and research environment at the institute.

Research Focus

🔬 Dr. Prince’s research primarily focuses on the protection of DC microgrids in various operational scenarios, including grid-connected and islanded modes. His work aims to enhance power quality and develop resilient protection mechanisms for modern electrical systems.

Awards and Honours

🏆 Dr. Prince has successfully qualified GATE in Electrical and Electronics Engineering in both 2016 and 2017, demonstrating his strong foundational knowledge in the field.

Publication Top Notes

📚 Dominant/Lower Order Harmonic Injection-based Electric Fault Detection for DC Microgrids in Grid Coupled/Decoupled Scenarios
Published in IEEE Transactions on Industry Applications (2023), DOI: 10.1109/TIA.2023.3332314
Cited by: 4 articles

📚 Protection of DC Microgrids based on Complex Power during Faults in On/Off-Grid Scenarios
Published in IEEE Transactions on Industry Applications (2023), Volume 59, Issue 1, pp. 244-254
Cited by: 12 articles

📚 Resilient Bus-Bar Protection Scheme for DC Microgrids Connected to AC Electric Grids
In-Press in International Journal of Green Energy (Taylor & Francis)
Cited by: 2 articles

📚 Challenges and Advancements in Protection of DC Microgrid System-A Comprehensive Review
Published in Energy Sources, Part A: Recovery, Utilization, and Environmental Effects (2022), Volume 44, Issue 4, pp. 10481-10505
Cited by: 15 articles

Conclusion:

Dr. Satyavarta Kumar Prince is a strong candidate for the Research for Best Researcher Award. His academic achievements, research publications, and contributions to the field of electrical engineering, particularly in microgrid protection, make him a noteworthy contender. However, broadening his research scope, engaging in more diverse professional activities, and taking on leadership roles could further enhance his candidacy