Dr. Mansoo Go | Structural Dynamics | Best Researcher Award
Senior Researcher | Hoseo University | South Korea
Go Mansoo is a senior researcher at Virtual Structure Technology Co., Ltd., Korea, whose expertise lies in optimal design, structural vibration, finite element analysis, and fatigue analysis, building his academic foundation with a Ph.D. in mechanical engineering from Hoseo University with a dissertation on sensitivity analysis of finite element-based equilibrium problems using Padé approximants, complemented by an M.S. in mechanical engineering with specialization in structural vibration and a B.S. in robotics from the same institution, his professional journey includes serving as a research professor at the Institute of Industrial Technology at Hoseo University and leading impactful projects funded by the Ministry of SMEs and Startups as well as the Ministry of Trade, Industry and Energy, contributing to the development of high-precision 2D and 3D inspection equipment for transparent Mini LEDs, all-terrain cranes with artificial intelligence-based safety and user-friendliness, high-speed automatic inspection equipment for advanced semiconductor processes, wireless monitoring devices for level and vibration measurement, and real-time wireless particle monitoring systems, his applied research extends into optimization of electric actuators, inspection systems for large-scale system-in-package processes, lightweight design of gantry robots, fatigue life prediction for vacuum chambers in flat panel manufacturing, and structural analysis of aerial work platforms, his scholarly output includes publications addressing oriented design optimization for enhancing fatigue life of marine liquid hydrogen storage tanks under asymmetric sloshing loads, effects of impact load-induced stress on fatigue life of structures, methods to study fatigue life of nodes connecting marine systems, finite element analysis for calculating impact factors of structures under dynamic loads, weight reduction of semiconductor inspection equipment stages using sensitivity analysis.
Featured Publications:
Go, M. (2025). Symmetry-oriented design optimization for enhancing fatigue life of marine liquid hydrogen storage tanks under asymmetric sloshing loads. Symmetry, 17(9), 1497.