Guijie SHI | Marine Structures | Best Researcher Award
Guijie Shi , Shanghai Jiao Tong University , China.
Dr.Guijie Shi is a Senior Engineer at Shanghai Jiao Tong University, specializing in structural ultimate strength and impact resistance. With a Ph.D. in Engineering Mechanics, Dr. Shi’s research includes developing structural models and test devices, and advancing load inversion and damage identification techniques. Previously, he contributed to marine structure regulations at China Classification Society. His significant achievements include winning the 2023 Shanghai Science and Technology Advancement Award and publishing over 30 papers. Dr. Shi’s work significantly impacts ship and offshore engineering.
Publication Profile
Suitability For The Award
Dr. Guijie Shi, a Senior Engineer and Associate Researcher at Shanghai Jiao Tong University, is a distinguished candidate for the Best Researcher Award due to his exemplary contributions to naval architecture and ocean engineering.
Education And Experience 
Education:
Ph.D. in Engineering Mechanics, Shanghai Jiao Tong University (2012)
Bachelor’s in Naval Architecture and Ocean Engineering, Tianjin University (2007)
Experience:
Senior Engineer, Shanghai Jiao Tong University (2017–Present)
Senior Engineer, China Classification Society (2012–2016)
Professional Development
Dr. Guijie Shi has actively pursued professional development throughout his career. After earning his Ph.D. in Engineering Mechanics from Shanghai Jiao Tong University, he honed his expertise in marine structures and ship rules at the China Classification Society.
Since returning to Shanghai Jiao Tong University in 2017, he has led numerous research projects funded by the National Natural Science Foundation of China.
His commitment to innovation is highlighted by over 30 published papers and more than 10 patents.
Dr. Shi has received notable awards, including the 2023 Shanghai Science and Technology Advancement Award.
Research Focus
Dr. Guijie Shi’s research focuses on advancing structural engineering, particularly in marine and offshore applications. His expertise includes studying the ultimate strength and impact resistance of ship structures, developing new test devices, and enhancing load inversion and damage identification methods.
He is also involved in exploring augmented reality for digital delivery and structural modeling.
Dr. Shi’s work addresses crucial aspects of ship and offshore engineering, aiming to improve safety, durability, and performance through innovative methodologies and experimental approaches.
His contributions significantly impact the field, advancing both theoretical understanding and practical applications.
Publications 

- “Characterization on the impact load of a local corner region of a liquid tank entering water”
H Xie, J Li, G Shi, D Wang, H Tang
Ocean Engineering, 312, 119030 (2024) - “Experimental study of structural failure and ultimate strength of GFRP girder with hat stiffeners and foams under bending load”
GJ Shi, YH Ji, JB Xu, DY Wang, ZT Xu
Marine Structures, 96, 103607 (2024) - “Experiment Study of Critical Dynamic Loads for Stiffened Panels Under Axial Impact”
G Shi, D Wang
International Conference on Offshore Mechanics and Arctic Engineering, 87790 (2024) - “Impact load identification method based on frequency response pattern recognition and dynamic sensor filter strategy”
L Sun, D Wang, G Shi
Journal of Ocean Engineering and Science (2024) - “Dynamic ultimate capacity analysis of rectangular girder under hammer impact”
G Shi, D Wang
Vibroengineering Procedia, 54, 35-39 (2024) - “Experimental investigation of failure modes and ultimate strength of GFRP structure members under longitudinal compression”
Y Ji, G Shi, D Wang, Z Xu, J Xu
Ocean Engineering, 287, 115778 (2023)
Conclusion
Dr. Guijie Shi’s exceptional research achievements, innovative contributions, and the significant impact of his work make him an outstanding candidate for the Best Researcher Award. His dedication to advancing naval architecture and structural engineering through both theoretical and practical innovations exemplifies his exceptional qualifications for this honor.