Fucan Huang | Engineering | Excellence in Research Award

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Dr. Fucan Huang | Engineering | Engineering | Excellence in Research Award

Shandong University of Science and Technology | China

Dr. Fucan Huang is an emerging researcher in mechanical fault diagnosis, known for advancing intelligent diagnostic methods through deep learning, multi-attention mechanisms, and cross-domain adaptability. His work focuses on improving fault detection accuracy in complex industrial environments, particularly under fluctuating conditions, imbalanced datasets, and multi-source domain challenges. He has contributed significantly to Measurement Science and Technology and Machines, co-authoring several influential papers. His research includes the development of an adaptive attenuation self-attention adversarial network for cross-domain diagnosis, a multi-source domain collaborative bearing fault method guided by multi-attention mechanisms, and innovative dual-domain vision transformer frameworks. These contributions enhance the robustness, generalizability, and interpretability of diagnostic models, strengthening intelligent maintenance systems and promoting safer, more efficient industrial operations.

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Featured Publications

An, Y., Zhang, D., Zhang, M., Xin, M., Wang, Z., Ding, D., Huang, F., & Wang, J. (2025). Residual attention-driven dual-domain vision transformer for mechanical fault diagnosis. Machines, 13(12), Article 1096.

Huang, F., Zhang, Q., Han, B., Wang, J., Zhang, Z., Ge, R., & Gong, H. (2025). Adaptive attenuation self-attention adversarial network for cross-domain fault diagnosis under imbalanced conditions. Measurement Science and Technology, 31 December 2025.

Ge, R., Zhang, Z., Wang, J., Wang, W., Fan, Z., & Huang, F. (2025). Multi-source domain bearing fault collaborative diagnosis method for unbalanced samples guided by multi-attention mechanism. Measurement Science and Technology, 30 November 2025.

Han, B., Huang, F., Qin, M., Qin, H., Wang, J., Zhang, Z., & Yu, Y. (2025). Dual-domain fused vision transformer for mechanical fault diagnosis under fluctuating working conditions. Measurement Science and Technology, 30 April 2025.

Saeed Gholizadeh | Engineering | Best Researcher Award

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Prof. Saeed Gholizadeh | Engineering | Best Researcher Award

Urmia University | Iran

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Early Academic Pursuits

Prof. Saeed Gholizadeh began his academic journey at Urmia University, where he earned a B.Sc. in Civil Engineering in 2000. He continued his education at the University of Kerman, obtaining an M.Sc. in Structural Engineering in 2002. His master's thesis focused on the optimal design of structures using genetic algorithms and neural networks, under the supervision of Prof. Eysa Salajegheh. Prof. Gholizadeh pursued a Ph.D. in Structural Engineering at the same institution, completing his doctorate in 2009 with a dissertation on the optimum seismic design of structures using advanced artificial intelligence methods, again under the guidance of Prof. Eysa Salajegheh.

Professional Endeavors

Prof. Gholizadeh's academic career at Urmia University began in 2009 as an Assistant Professor in Structural Engineering. He was promoted to Associate Professor in 2013 and became a full Professor in 2020. He also served as a visiting professor at Middle East Technical University in Ankara, Turkey, from 2021 to 2022, where he collaborated with Prof. Oğuzhan Hasançebi on a project related to the seismic total cost optimization of steel structures.

Contributions and Research Focus

Prof. Gholizadeh has made significant contributions to the field of structural engineering, with a particular focus on structural optimization, performance-based seismic design, and the application of soft computing techniques. His research interests include neural networks, metaheuristics, and the analysis and design of space structures. He has authored numerous journal articles and book chapters, and his work on the optimal design of structures using advanced artificial intelligence methods has been widely recognized.

Accolades and Recognition

Throughout his career, Prof. Gholizadeh has received numerous awards and honors. He was the first-ranked M.Sc. student at Shahid Bahonar University of Kerman in 2002 and was chosen as the Distinguished PhD Candidate and Researcher of Kerman University in 2008. He received the Fifth Afzalipoor Prize in 2009 and was the first-ranked PhD student in the 14th Best Thesis Competition of the Ministry of Science in Tehran in 2010. In 2015, he was recognized as the Prominent Iranian Young Scientist in Civil Engineering by the Iranian Academy of Sciences. He has also been chosen as the Distinguished Researcher of Urmia University multiple times, most recently in 2023.

Impact and Influence

Prof. Gholizadeh's work has had a significant impact on the field of structural engineering, particularly in the areas of seismic design and structural optimization. His innovative research using artificial intelligence and metaheuristic algorithms has advanced the understanding and implementation of optimal design strategies in civil engineering. His contributions have been widely cited, earning him a place among the world's top 2% of highly cited researchers for four consecutive years (2019-2022).

Legacy and Future Contributions

Prof. Gholizadeh's legacy in the field of structural engineering is marked by his groundbreaking research and numerous accolades. His work continues to influence both academic research and practical applications in structural design. As a leading figure in the field, he is likely to continue contributing to advancements in seismic design, optimization techniques, and the application of artificial intelligence in civil engineering. His ongoing research and future projects promise to further enhance the safety, efficiency, and sustainability of structural systems.

Notable Publications

Efficient neural network-aided seismic life-cycle cost optimization of steel moment frames 2024

On the seismic collapse capacity of optimally designed steel braced frames 2022 (14)

Seismic collapse safety analysis of performance-based optimally designed reinforced concrete frames considering life-cycle cost 2021 (8)

Mainshock–aftershock low-cycle fatigue damage evaluation of performance-based optimally designed steel moment frames 2021 (7)

Multi-objective design optimization of steel moment frames considering seismic collapse safety 2021 (23)