Dr. Zahra Beheshti | AI in Engineering | Best Researcher Award

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Dr. Zahra Beheshti | AI in Engineering | Best Researcher Award

Dr. Zahra Beheshti | Islamic Azad University | Iran

Dr. Zahra Beheshti is an Assistant Professor at the Islamic Azad University, Najafabad Branch, with a distinguished background in computer engineering and artificial intelligence. She holds a B.Sc. and M.Sc. in Computer Engineering (Software) and a Ph.D. in Computer Science with a focus on Artificial Intelligence, followed by postdoctoral research in Soft Computing. Dr. Beheshti has made significant contributions to the field, including the compilation of the book Centripetal Accelerated Particle Swarm Optimization and Applications. Her academic excellence has been recognized through scholarships awarded to top international Ph.D. students. She is actively involved in knowledge dissemination, having conducted multiple workshops on advanced topics such as Machine Learning, Fuzzy Expert Systems and their application in algorithm parameter determination, and Introduction to Fuzzy Logic along with the Design and Implementation of Fuzzy Expert Systems. Her research output includes 34 documents, cited 1,865 times by 1,698 publications, with an h-index of 20, reflecting the significant impact of her work. Through her teaching, research, and publications, Dr. Beheshti demonstrates a strong commitment to advancing computational intelligence, fostering innovation, and mentoring the next generation of researchers in AI and soft computing, combining both academic rigor and practical application.

Profile: Scopus | Google Scholar | Orcid

Featured Publications

  • Z Beheshti, SMH Shamsuddin, A review of population-based meta-heuristic algorithms, Int. J. Adv. Soft Comput. Appl 5 (1), 1-35, 744 citations, 2013

  • H Abedinpourshotorban, SM Shamsuddin, Z Beheshti, DNA Jawawi, Electromagnetic field optimization: a physics-inspired metaheuristic optimization algorithm, Swarm and Evolutionary Computation 26, 8-22, 414 citations, 2016

  • M Jafarzadegan, F Safi-esfahani, Z Beheshti, Combining Hierarchical Clustering approaches using the PCA Method, Expert Systems with Applications 137, 1-10, 156 citations, 2019

  • Z Beheshti, SM Shamsuddin, S Hasan, Memetic binary particle swarm optimization for discrete optimization problems, Information Sciences 299, 58-84, 129 citations, 2015

  • Z Beheshti, SMH Shamsuddin, CAPSO: centripetal accelerated particle swarm optimization, Information Sciences 258, 54-79, 120 citations, 2014

  • M Banaie-Dezfouli, MH Nadimi-Shahraki, Z Beheshti, R-GWO: Representative-based grey wolf optimizer for solving engineering problems, Applied Soft Computing 106, 1-28, 108 citations, 2021

 

 

Dr. Bin Zhang | Structural Engineering | Best Researcher Award

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Dr. Bin Zhang | Structural Engineering | Best Researcher Award

Dr. Bin Zhang | Chongqing University of Science and Technology | China

Dr. Bin Zhang holds a Doctorate in Engineering and has completed postdoctoral research. He is a lecturer and masterโ€™s supervisor in the Department of Road and Bridge Engineering, School of Civil and Hydraulic Engineering, and a youth committee member of the World Transport Convention. His research focuses on the dynamic characteristics of underground and tunnel structures, the development of new materials and technologies for structural reinforcement, and intelligent monitoring of structural health. His research output includes 26 documents, 171 citations, 146 citing documents, and an h-index of 8. He teaches both undergraduate and postgraduate courses, including Tunnel Engineering, Engineering Surveying, Tunnel Mechanics, and Frontier Technologies in Civil Engineering, integrating theoretical knowledge with practical applications to advance innovation in civil and tunnel engineering. Additionally, he has developed advanced experimental methods for studying tunnel lining mechanics, contributing to safer and more efficient tunnel design practices.

Profile: Scopus | Orcid

Featured Publications

  • Study on the Stability of Buildings During Excavation in Urban Core Areas, Applied Sciences, 2025. Contributors: Kang Liu, Huafeng Liu, Yuntai Gao, Zijian Wang, Yunchuan Wang, Qi Liu, Chaolin Jia, Zihang Huang, Bin Zhang.

  • Experimental Study on Mechanical Differences Between Prefabricated and Cast-In Situ Tunnel Linings Based on a Load-Structure Model, Buildings, 2025. Contributors: Li-Ming Wu, Hong-Kun Li, Feng Gao, Zi-Jian Wang, Bin Zhang, Wen-Jie Luo, Jun-Jie Li.

  • Mechanical Properties of Steel Fiber-Reinforced Concrete Tunnel Secondary Lining Structure and Optimization of Support Parameters, Buildings, 2025. Contributors: Zijian Wang, Yunchuan Wang, Xiaorong Wang, Baosheng Rong, Bin Zhang, Liming Wu, Chaolin Jia, Zihang Huang.

  • Crystallization Blockage in Highway Tunnel Drainage System Based on Molecular Dynamics, AIP Advances, 2025. Contributors: Shiyang Liu, Xuefu Zhang, Bin Zhang.

  • Experimental Study on Grouting Diffusion Law of Tunnel Secondary Lining Cracks Based on Different Slurry Viscosities, Applied Sciences, 2025. Contributors: Bin Zhang, Peng Liu, Yi Wu, Liming Wu, Chen Li, Shiyang Liu, Yuanfu Zhou.

  • Experimental Study on Grouting Diffusion Law of the Different Crack Widths in Tunnel Lining, KSCE Journal of Civil Engineering, 2023. Contributors: Bin Zhang, Yuanfu Zhou, Xuefu Zhang, Zijian Wang, Wei Yang, Yixuan Ban.

  • Anti Crystallization Blocking of Flocking Drainage Pipe Based on Natural Phenomenon, Materials Science, 2022. Contributors: Xuefu Zhang, Shiyang Liu, Feng Gao, Yuanfu Zhou, Bin Zhang.

Dr. Priya Tyagi | Sustainable Engineering | Best Researcher Award

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Dr. Priya Tyagi | Sustainable Engineering | Best Researcher Award

Dr. Priya Tyagi | Sharda University | India

Dr. Priya Tyagi is a dedicated sustainable architect with extensive academic and professional expertise in sustainable design and rural housing development. She earned her Doctor of Philosophy from Malaviya National Institute of Technology, Jaipur, focusing on a decision-making framework for design quality assessment of rural houses in India, following her Master of Architecture in Sustainable Architecture from Deenbandhu Chhotu Ram University of Science and Technology, Murthal, and Bachelor of Architecture from Shri Ram Group of Colleges, Lucknow. She has actively contributed to research and practice in architecture, including a joint research project on municipal waste management at Massachusetts Institute of Technology, Boston, and holds professional credentials as a Green Rating for Integrated Habitat Assessment certified professional. Currently, she serves as Assistant Professor at Sharda School of Design, Architecture and Planning, Greater Noida, having previously held academic positions at Sanskar College of Architecture and Planning and practical experience with Shelter Architects and M/s Raj Architects and Builders. Dr. Tyagi has been recognized for her expertise through appointments as a reviewer for Scopus-indexed journals, including the Journal of Infrastructure, Policy and Development, and the Journal of Civil, Construction and Environmental Engineering. Her research output includes 9 documents with 6 citations and an h-index of 2, reflecting her growing impact in sustainable architecture, design quality assessment, and environmentally responsible building practices in India.

Profile:ย Scopusย |ย Google Scholarย |ย Orcid

Featured Publications

Tyagi, P., Shrivastava, B., & Kumar, N. (2024). Investigating rural housing quality indicators in the Indian scenario for inclusive imageability. Environment, Development and Sustainability, 26(10), 25609-25643.

Tyagi, P., Shrivastava, B., & Kumar, N. (2023). Towards creating inclusive villages: The types of rural settlements in India. ISVS e-Journal, 10(2), 91-106.

Bhyan, P., Tyagi, P., Doddamani, S., Kumar, N., & Shrivastava, B. (2023). Life cycle assessment of lightweight and sustainable materials. Lightweight and Sustainable Composite Materials, 117-142.

Tyagi, P., Shrivastava, B., & Kumar, N. (2024). A comprehensive investigation of rural and low-rise housing design quality: A thematic and bibliometric analysis. Journal of Housing and the Built Environment, 39(3), 1323-1353.

Tyagi, P., Shrivastava, B., & Kumar, N. (2025). Optimizing rural housing design quality: Indicators and parameters for comprehensive assessment. Environment, Development and Sustainability, 1-43.

Prof. Dr. Rehan Ahmad Khan | Structural Engineering | Best Researcher Award

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Prof. Dr. Rehan Ahmad Khan | Structural Engineering | Best Researcher Award

Prof. Dr. Rehan Ahmad Khan | Aligarh Muslim University | India

Prof. Dr. Rehan Ahmad Khan is a distinguished Professor of Civil Engineering at the Zakir Husain College of Engineering and Technology, Aligarh Muslim University. He earned his Ph.D. from the Indian Institute of Technology Delhi with a specialization in the reliability analysis of cable-stayed bridges under earthquake forces, and has since built expertise in reliability analysis, recycled aggregate concrete, self-healing and bacterial concrete, structural dynamics, and earthquake engineering. His teaching spans both undergraduate and postgraduate programs, covering areas such as strength of materials, structural analysis, reinforced concrete design, earthquake and wind engineering, disaster preparedness, advanced construction materials, and applied numerical methods. He has undertaken several consultancy projects, including structural audits, third-party inspections of buildings, bridges, retaining walls, wastewater treatment plants, and overhead tanks, contributing to engineering practice and safety standards. A recognized reviewer for reputed journals under Springer and Elsevier, he has authored 30 publications with 218 citations and an h-index of 8, reflecting his research impact and academic contributions to civil engineering.

Profile: Scopus

Featured Publications

Khan, R. A., (2025) Investigation of microstructural characterization, strength and durability of self-healing self-compacting conventional concrete Structures

Khan, R. A., (2025) Reliability analysis of nuclear power plant subjected to earthquake shocks Iranian Journal of Science and Technology, Transactions of Civil Engineering

Khan, R. A., (2024) Mechanical and microstructural performance of bacterial self-compacted concrete incorporating mineral admixtures Innovative Infrastructure Solutions

 

Mr. Andreas Fezer | Data Driven Engineering | Best Researcher Award

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Mr. Andreas Fezer | Data Driven Engineering | Best Researcher Award

Mr. Andreas Fezer | Materials Testing Institute, University of Stuttgart | Germany

Mr. Andreas Fezer is a Scientific Associate at the Materials Testing Institute, University of Stuttgart, Germany, specializing in joining technology and additive manufacturing. He holds both bachelorโ€™s and masterโ€™s degrees in mechanical engineering from the University of Stuttgart. Since joining the institute, he has contributed to advanced research on resistance spot welding, aluminum alloys, and the integration of experimental and machine learning approaches in welding technology. His published works focus on improving manufacturing efficiency and material performance. With expertise spanning mechanical engineering fundamentals and applied welding processes, Mr. Fezer plays an active role in advancing industrial materials testing and innovative manufacturing solutions.

Professional Profile

Orcid

Education and Experience

Mr. Andreas Fezer earned his bachelorโ€™s and masterโ€™s degrees in mechanical engineering from the University of Stuttgart, Germany. Following his academic training, he began his professional career at the Materials Testing Institute, University of Stuttgart, where he works as a Scientific Associate in the Department of Joining Technology and Additive Manufacturing. His work involves both experimental and computational research, focusing on welding processes, material resistance evaluation, and the development of innovative manufacturing techniques. Through his combined academic background and applied industrial research, Mr. Fezer contributes to the advancement of materials engineering and welding technologies in both academic and industrial contexts.

Summary Suitability

Mr. Andreas Fezer is an outstanding candidate for the Best Researcher Award due to his significant contributions to advanced materials testing and welding technology. As a Scientific Associate at the Materials Testing Institute, University of Stuttgart, he has demonstrated expertise in joining technology and additive manufacturing, focusing on aluminum alloys and resistance spot welding processes. His work combines experimental investigations with innovative machine learning techniques, enabling improved understanding of dynamic resistance and contact behavior in metal joining.

Professional Developmentย 

Mr. Andreas Fezer has cultivated expertise in resistance spot welding, aluminum alloy characterization, and additive manufacturing processes. He engages in collaborative research integrating experimental methods with machine learning to improve process understanding and efficiency in manufacturing. His professional growth has been shaped by active participation in scientific publications, interdisciplinary teamwork, and applied research projects that connect engineering theory with industrial practice. Working within the renowned Materials Testing Institute at the University of Stuttgart has allowed him to refine his analytical, problem-solving, and technical skills, positioning him as a valuable contributor to innovation in mechanical engineering and materials science.

Research Focusย 

Mr. Andreas Fezerโ€™s research is centered on welding technology, particularly resistance spot welding of aluminum alloys used in automotive and structural applications. His work addresses both the physical phenomena involved in material joining and the development of methods for evaluating contact and bulk resistance in metals. He explores dynamic resistance behavior using a combination of laboratory experimentation and machine learning techniques, aiming to enhance process reliability, material performance, and production efficiency. His research focus falls under the category of advanced manufacturing and materials engineering, with an emphasis on joining processes, welding quality control, and the integration of data-driven approaches in manufacturing.

Awards and Honors

Mr. Andreas Fezerโ€™s professional recognition is reflected in his contributions to peer-reviewed scientific publications and his role in advancing welding technology research. His work has appeared in reputable international journals, showcasing the impact and quality of his studies in materials testing and manufacturing innovation. Through collaborative projects and research dissemination, he has earned professional respect within the mechanical engineering and materials science community. His achievements underscore his reputation as a researcher whose work supports both academic advancement and industrial application in the field of joining technology and additive manufacturing.

Publication Top Notes

Title: Method for Determining the Contact and Bulk Resistance of Aluminum Alloys in the Initial State for Resistance Spot Welding
Year: 2025

Title: Experimental and Machine Learning Investigation of Dynamic Resistance in Aluminum Resistance Spot Welding for the Body-in-White
Year: 2025

Conclusion

Mr. Andreas Fezerโ€™s innovative research, combining experimental methods and machine learning in welding technology, has made a significant impact on materials science and manufacturing. His work demonstrates technical excellence, practical relevance, and academic rigor, establishing him as a leading researcher in his field. His contributions to understanding and improving aluminum resistance spot welding processes highlight both his scientific insight and his ability to drive industrial innovation, making him exceptionally deserving of the Best Researcher Award.

 

Donghyuk Kim | Materials Chemistry | Best Researcher Award

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Dr. Donghyuk Kim | Materials Chemistry | Best Researcher Award

Korea Institute of Industrial Technology, South Korea

๐Ÿ‘จโ€๐ŸŽ“Profiles

๐Ÿ“ˆ Early Academic Pursuits

He began his academic journey with a strong foundation in Materials Engineering. He completed his Master's degree at Sungkyunkwan University (2002-2004) under the supervision of Professor Young-Jik Kim, where he specialized in New Materials Engineering. His passion for metallurgical advancements led him to pursue a Ph.D. at Kyungpook National University (2013-2018). Under the guidance of Professor Byeong-Jun Ye, his doctoral research culminated in the thesis titled "Study on the Austenite Formation and Oxidation Resistance of AGI (Austempered Gray Cast Iron) According to Aluminum Content". This foundational research paved the way for his expertise in cast iron materials and oxidation resistance, laying a solid groundwork for his professional journey.

๐Ÿ’ผ Professional Endeavors

He currently holds the position of Senior Researcher in the Mobility Components Group at the Korea Institute of Industrial Technology (KITECH). With a strong background in materials science, he actively contributes to innovative research and development projects focusing on mobility technologies and industrial applications. His role involves leading projects, fostering collaboration, and advancing key components that enhance industrial mobility solutions. Located in Daegu, Republic of Korea, He plays a pivotal role in strengthening Korea's technological edge in manufacturing and materials research.

๐Ÿ”ฌ Research Focus and Contributions

His research focuses on the microstructure evolution, austenite formation, and oxidation resistance of advanced cast iron materials. His doctoral work on Austempered Gray Cast Iron (AGI) highlighted the critical role of aluminum content in improving material properties, including high-temperature oxidation resistance and enhanced mechanical performance. His contributions extend to: Investigating advanced metallurgical processes, Improving the durability and strength of mobility components, Developing materials with enhanced resistance to environmental factors,ย His work has broad applications in automotive, aerospace, and industrial manufacturing, addressing challenges in material sustainability and performance optimization.

๐Ÿ” Impact and Influence

Through his pioneering research, He has significantly contributed to advancements in metallurgical engineering. His insights into cast iron's microstructure behavior have influenced the development of next-generation materials for industrial applications. As a Senior Researcher at KITECH, he actively mentors junior researchers and collaborates with industry leaders, fostering an environment of innovation. His research not only impacts academic circles but also drives industrial practices, particularly in the mobility and manufacturing sectors.

๐Ÿ“… Academic Citations

His scholarly works are well-recognized in the field of materials engineering. His research findings have been cited in multiple peer-reviewed journals, demonstrating the academic value and practical relevance of his studies. Notably, his contributions to Austempered Gray Cast Iron research remain a reference point for researchers focusing on oxidation resistance and microstructure formation.

๐Ÿ› ๏ธ Technical Skills

He is highly proficient in various technical domains, including: Metallurgical Analysis: Austenite and ferrite formation studies, Materials Characterization: XRD, SEM, TEM, and mechanical testing techniques, Oxidation Resistance Testing: Evaluating material stability at high temperatures, Industrial Application Development: R&D for mobility components and advanced alloys,ย His technical expertise bridges the gap between theoretical research and practical applications, enabling the development of robust materials.

๐Ÿ’ผ Teaching and Mentorship

Throughout his academic and professional career, He has been dedicated to mentoring students and junior researchers. His ability to explain complex metallurgical phenomena in practical terms has earned him respect as an effective mentor. By guiding research projects and fostering innovation, he has inspired the next generation of materials scientists to explore sustainable and high-performance materials.

โœจ Legacy and Future Contributions

His legacy lies in his impactful research on cast iron materials and their applications in industrial mobility. Moving forward, he remains committed to: Developing eco-friendly and sustainable materials for industrial applications. Enhancing the performance of mobility components through advanced metallurgical processes. Contributing to global collaborations that drive innovation in materials science.ย As a Senior Researcher, he continues to bridge academic research with industrial advancements, ensuring that his work shapes the future of material engineering and mobility technologies.

๐Ÿ“ Conclusion

His career reflects a seamless blend of academic excellence and professional expertise. From his early academic pursuits to his current role as a Senior Researcher at KITECH, he has consistently contributed to the field of metallurgical engineering. His research, technical skills, and mentorship have left an enduring mark on both academia and industry, positioning him as a leader in advanced materials development and innovation.

๐Ÿ“–Notable Publications