Yuan Xue | Statistical Applications in Engineering | Best Researcher Award

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Assoc Prof. Dr. Yuan Xue | Statistical Applications in Engineering | Best Researcher Award

Chengdu University of Technology | China

Assoc Prof. Dr. Yuan Xue, an accomplished Associate Professor at Chengdu University of Technology, is a leading researcher in the specialized domain of earthquake statistics and geostatistical modeling, with a strong record of academic excellence, scientific innovation, and professional service. His research career is distinguished by substantial contributions to statistical inference in seismicity, the development of earthquake probability models, and the quantitative assessment of seismic hazard patterns across major fault systems in Sichuan, China. Over the years, he has independently led two provincial-level scientific research projects and participated as a principal contributor in two major national-level initiatives, including one supported by the National Key Research and Development Program and another funded by the National Natural Science Foundation of China. In addition, he has been involved in eight provincial-level scientific projects and has successfully completed a total of fifteen scientific and consultancy projects in both academic and applied settings. Dr. Xue has demonstrated prolific scholarly output, publishing seventeen peer-reviewed journal articles as first or corresponding author across SCI, Scopus, and other prestigious platforms, contributing significantly to advancements in earthquake statistical theory and practical seismic risk analysis. His Scopus academic profile further reflects his growing global impact, with an h-index of 26, 8 documents, and 174 citations, complementing his broader citation record of 18 citations in Web of Science and 88 citations in CNKI. He has also contributed to academic literature through the publication of three books with internationally recognized ISBNs and has secured four national invention patents, demonstrating the applied value and innovation of his work. Dr. Xue’s expertise extends to professional academic service, serving as a reviewer and editor of the South China Journal of Seismology, as well as collaborating with the Sichuan Earthquake Agency to carry out high-impact statistical inference studies on seismic patterns of major regional fault systems. His research achievements have been recognized through multiple awards, including two second prizes in National Land and Resources Science and Technology, a second prize in Sichuan Province Science and Technology Progress, and a prestigious first prize in the Sichuan Province On-site Statistics Society Excellent Achievement Award. As an active member of the Chinese Association for Applied Statistics, the Chinese Mathematical Society, and the Sichuan Association for Applied Statistics-where he also serves as Deputy Secretary-General, Dr. Xue continues to expand the role of statistical science in earthquake research, contributing meaningful advancements to national and regional seismic safety and hazard prediction efforts.

Profile: Scopus 

Featured Publications

Wei, D., Xue, Y., Wang, X., Liu, W., & He, J. (2025). Stability monitoring of deep soil in slope based on local strain and continuous vibration information analysis. Optical Fiber Technology,

Li, T., Tian, J., Pei, X., Guo, J., Chen, M., Xue, Y., & Meng, M. (2025). Shear strength indices predication model for coarse-grained soil based on particle gradation and moisture content information. Bulletin of Engineering Geology and the Environment,

Ding Xiangyu | Statistical Applications in Engineering | Best Researcher Award

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Prof. Ding Xiangyu | Statistical Applications in Engineering | Best Researcher Award

Nanchang Hangkong University | China

Prof. Ding Xiangyu is a distinguished scholar and the Dean of the School of Power and Energy at Nanchang University of Aeronautics, where he has established himself as a leading expert in the field of aeroengine technology and engineering. With an academic career marked by innovation, precision, and dedication, Professor Ding has devoted decades to advancing research on surface treatment and sealing structures for aeroengines, contributing significantly to the reliability, performance, and longevity of modern propulsion systems. His research has been instrumental in addressing critical challenges in high-temperature sealing, material fatigue, and efficiency optimization within the aerospace industry. Professor Ding has successfully led and participated in numerous high-impact research projects supported by prestigious funding bodies such as the Jiangxi Provincial Natural Science Foundation, the National Natural Science Foundation of China, the AVIC Independent Innovation Fund, and several defense-related horizontal projects that bridge academic theory with industrial application. His leadership and expertise have positioned him as a pivotal figure in fostering collaboration between academia, government, and the aerospace sector, driving forward China’s capabilities in aeronautical power engineering. As the chief editor of the authoritative textbook Principles of Aeroengines, Professor Ding has also made substantial contributions to the academic community by shaping the next generation of aerospace engineers and researchers. His textbook serves as a foundational reference for students and professionals alike, reflecting his deep understanding of engine thermodynamics, aerodynamics, and mechanical design. Beyond his academic and research achievements, he is widely recognized for his visionary leadership in developing the School of Power and Energy into a center of excellence for innovation and applied research. Under his guidance, the school has enhanced its focus on interdisciplinary education, experimental research, and international collaboration, aligning closely with global trends in sustainable and intelligent propulsion technologies. Professor Ding’s academic influence, technical expertise, and leadership continue to inspire advancements in the field of aeroengine engineering, contributing meaningfully to China’s aerospace progress and reinforcing his reputation as one of the foremost authorities in the field. His lifelong commitment to research excellence and educational leadership underscores his invaluable role in shaping both the technological and academic landscape of aerospace power and energy systems.

Profiles:  Orcid

Featured Publications

Wang, Y., Ding, X., Yu, S., Wang, S., Wu, Z., Yuan, Y., & Wang, C. (2025). Study on the effect of laser impact strengthening on the service performance of ZL101A aluminum alloy. Journal of Materials Engineering and Performance.

Gong, Z., Zhang, T., Chen, Y., Lu, J., Ding, X., Zhang, S., Lan, M., Shen, Y., & Wang, S. (2024). Effect of laser shock peening on stress corrosion cracking of TC4/2A14 dissimilar metal friction stir welding joints. Journal of Materials Research and Technology.

Ding, X., Zhang, J., Yu, S., Jiang, Z., Zhong, J., Ma, S., Wang, S., Li, H., & Wang, C. (2024). The effect of laser shock peening on the rotating bending fatigue resistance of S51740 stainless steel. Journal of Materials Science.

Ding, X., Li, H., Jiang, Z., Zhang, J., Ma, S., Zhong, J., Wang, S., & Wang, C. (2023). Prediction of surface residual stresses after laser shock processing on TC4 titanium alloy using different neural network agent models. Coatings.

Ding, X., Ma, S., Zhang, J., Jiang, Z., Li, H., Wang, S., Wang, C., & Zhong, J. (2023). Numerical simulation and process study on laser shock peening of 1Cr18Ni9Ti material. Crystals.

Yufeng Jiang | Statistical Applications in Engineering | Best Researcher Award

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Assoc Prof. Dr. Yufeng Jiang | Statistical Applications in Engineering | Best Researcher Award

Ocean University of China | China

Assoc Prof. Dr. Yufeng Jiang is an Associate Professor at the Ocean University of China, specializing in the health monitoring and safety assessment of offshore and marine engineering structures. With a strong academic foundation from the Ocean University of China, he has dedicated his career to advancing intelligent damage diagnosis methods that can directly utilize incomplete information while maintaining high noise robustness. He innovatively developed an iterative two-stage damage identification methodology capable of simultaneously locating structural damage and assessing its severity. Dr. Jiang has designed a hardware network of fiber optic sensors for condition monitoring of deepwater pressure-resistant subsea structures and created an intelligent structural health monitoring and early warning system, which has been successfully applied in a 500-meter deep-sea mixed-transport system demonstration project. His research has led to 20 Documents , 10 patents, and collaboration on three major research projects, resulting in a citation count of 111 and an h-index of 6, reflecting the significant impact of his work. Additionally, he has contributed to two consultancy projects and maintained collaborations across multiple institutions, consistently translating innovative research into practical engineering applications. Dr. Jiang continues to advance the field of marine structural safety with a focus on applied intelligence and robust monitoring solutions.

Profiles: Scopus  Orcid

Featured Publications

Liu, Y., Wang, S., Jiang, Y., & Du, J. (2025). A spatial deformation reconstruction method of deep-sea mining riser from sparse inclination measurements. Ocean Engineering.

Wang, C., Luo, D., Guo, Y., Zheng, Z., Jiang, Y., & Du, J. (2025). A novel stochastic model updating method for offshore platforms based on Kriging model with active learning. Ocean Engineering.

Jiang, Y., Ma, C., Wang, S., & Li, Y. (2024). A novel evolutionary algorithm for structural model updating with a hybrid initialization and multi-stage update strategy. Ocean Engineering.

Jiang, Y., Liu, Y., Wang, S., & Rakicevic, Z. (2024). Structural damage classification in offshore structures under environmental variations and measured noises using linear discrimination analysis. Structural Control and Health Monitoring.

Liu, Y., Jiang, Y., Zhao, H., Wang, S., & Han, J. (2023). Experimental investigation on vortex-induced vibration characteristics of a segmented free-hanging flexible riser. Ocean Engineering.