Institute for Computational Science
Division of Computational Mathematics and Engineering
Ton Duc Thang University, Ho Chi Minh City, Vietnam
Research Interests:
My current research interests are numerical methods, metaheuristic optimization techniques, composite materials and smart materials, damage identification methods and machine learning.
Selected Publications (For more see the link, Dr. Trung Vo-Duy):
Nguyen-Minh, N., Nguyen-Thoi, T., Bui-Xuan, T. and Vo-Duy, T. [2015] “Static and free vibration analyses of stiffened folded plates using a cell-based smoothed discrete shear gap method (CS-FEM-DSG3),” Appl. Math. Comput. 266, 212–234.
Nguyen-Thoi, T., Nguyen-Thoi, M. H., Vo-Duy, T. and Nguyen-Minh, N. [2015b] “Development of the cell-based smoothed discrete shear gap plate element (CS-FEM-DSG3) using three-node triangles,” Int. J. Comput. Methods 12, 1540015.
Vo-Duy, T., Ho-Huu, V., Dang-Trung, H. and Nguyen-Thoi, T. [2016] “A two-step approach for damage detection in laminated composite structures using modal strain energy method and an improved differential evolution algorithm,” Compos. Struct. 147, 42–53
Ho-Huu V, Vo-Duy T, Nguyen-Thoi T, et al. Optimization of truss structures with reliability-based frequency constraints under uncertainties of loadings and material properties. In: Applied mathematics in engineering and reliability. Ho Chi Minh City, Vietnam, 2016, CRC Press, pp. 59–65.
Ho-Huu V, Nguyen-Thoi T, Vo-Duy T, Nguyen-Trang T. An adaptive elitist differential evolution for truss optimization with discrete variables. Comput Struct 2016;165:59–75
Ho-Huu, V., Do-Thi, T. D., Dang-Trung, H., Vo-Duy, T. and Nguyen-Thoi, T. [2016]
“Optimization of laminated composite plates for maximizing buckling load using improved differential evolution and smoothed finite element method,” Compos. Struct. 146, 132–147.
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