Assistant Professor
Ph.D.(Engineering)
SUKULTHANASORN Naruethep
Organization
Research Division
- Risk Evaluation and Disaster Mitigation Research Division
- Disaster Humanities and Social Science Division
- Disaster Medical Science Division
- Practical Research and Collaboration Division
- Endowed Research Division
- Joint Research Division
- Co-creation Center for Disaster Resilience
- Global Centre for Disaster Statistics
- Kesennuma Satellite Office
- Public Relations Office
- Strategic Research Promotion Office
- Administration Office
- Research Subject(s)
- My research focuses on the development and application of numerical simulation methods for structural integrity and failure. By integrating physics-based simulation, structural optimization, and fracture mechanics with emerging technologies such as data science and quantum computing, I aim to develop advanced methods and tools to simulate the physical behavior of structures and design them for safety and reliability. My long-term goal is to develop computational safety technologies that enhance society's resilience under uncertainty and disasters.
- Key Words
- Computational mechanics / Structural optimization / Fracture mechanics / Numerical simulation
- Website
- Selected Works
-
Sukulthanasorn, N., and Terada, K. (2026). Quantum neural network-assisted topology optimization: Concept and implementation with parameterized quantum circuits. Computer Methods in Applied Mechanics and Engineering, 448, 118411.
Sukulthanasorn, N., Xiao, J., Wagatsuma, K., Nomura, R., Moriguchi, S. and Terada, K. (2025). A novel design update framework for topology optimization with quantum annealing: Application to truss and continuum structures. Computer Methods in Applied Mechanics and Engineering, doi:10.1016/j.cma.2025.117746.
Laosunthara, A., Krutphong, K., Leelawat, N., Wararuksajja, W., Sukulthanasorn, N., Suppasri, A., Thongthip, R. and Chintanapakdee, C. (2025). Initial observations and immediate lessons learned from Thailand's response to the 2025 Mandalay earthquake. International Journal of Disaster Risk Reduction, doi:10.1016/j.ijdrr.2025.105675.
Sukulthanasorn, N., Watanavit, P., Vo, D., Prasertsri, T., Mear, M.E. and Rungamornrat, J. (2022). Weakly Singular BIE-based Procedure for T-stress Analysis of Cracks in 3D Anisotropic Linear Elastic Finite Media. International Journal of Fracture, doi:10.1007/s10704-022-00667-7
- Selected Memberships
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- International Association for Computational Mechanics (IACM)
- The Japan Society for Computational Engineering and Science (JSCES)
- Selected Awards
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- The Japanese Government (MEXT) Scholarship Program
- The Best Presentation Award, the 7th Asian Conference on Mechanics of Functional
- Materials and Structures (ACMFMS2020 +1)
- Best Student Paper Award (2022), The Asian Society of Structural and Multidisciplinary Optimization (ASSMO)