Awardees of ACSMO 2022 - Congratulation!
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admin
Date
2023-01-13 11:46
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1760
Fellow Award
● Shutian Liu, Dalian University of Technology, China
● Yoon Young Kim, Seoul National University, Korea
● Hideyuki Azegami, Nagoya University, Japan
● Yoon Young Kim, Seoul National University, Korea
● Hideyuki Azegami, Nagoya University, Japan
ASSMO Award
● Hai Huang, Beihan University, China
● Seungjae Min, Hanyang University, Korea
● Katsuyuki Suzuki, The University of Tokyo, Japan
● Seungjae Min, Hanyang University, Korea
● Katsuyuki Suzuki, The University of Tokyo, Japan
Young Scientist Award
● Prof. Peng Hao, Dalian University of Technology, China
- Recent advances on the IGA-based design optimization of variable-stiffbess panels
● Changwoo Lee, KAIST, Korea
- Two-stage topology optimization framework of the rare-earth-free synchronous reluctance motors considering manufacturability and structural safety
● Kozo Furuta, Kyoto University, Japan
- Lavel set-based multi-material topology optimization regarding structural weight reduction
● Dongil Shin, Delft University of Technology, Netherland
- Ultralow dissipation nanomechanical resonator: Inspired by spiderweb in nature and guided by Bayesian optimization
- Recent advances on the IGA-based design optimization of variable-stiffbess panels
● Changwoo Lee, KAIST, Korea
- Two-stage topology optimization framework of the rare-earth-free synchronous reluctance motors considering manufacturability and structural safety
● Kozo Furuta, Kyoto University, Japan
- Lavel set-based multi-material topology optimization regarding structural weight reduction
● Dongil Shin, Delft University of Technology, Netherland
- Ultralow dissipation nanomechanical resonator: Inspired by spiderweb in nature and guided by Bayesian optimization
Best Student Paper Award
● Jiquan Yan, Zhejiang University, China
- A new time-dependent reliability analysis method using an instantaneous adaptive Kriging model based on Voronoi partition and important sampling
● Neung Hwan Yim, Seoul National University, Korea
- Why are spring-connected block models useful for topology optimization of rigid-body linkage mechanisms?
● Naruethep Sukulthanasorn, Nagoya University, Japan
- Two-scale concurrent topology optimization for transient heat structure
- A new time-dependent reliability analysis method using an instantaneous adaptive Kriging model based on Voronoi partition and important sampling
● Neung Hwan Yim, Seoul National University, Korea
- Why are spring-connected block models useful for topology optimization of rigid-body linkage mechanisms?
● Naruethep Sukulthanasorn, Nagoya University, Japan
- Two-scale concurrent topology optimization for transient heat structure