Plenary Lecture
| Learning Various Complex Wind Fields for Efficient Soaring | |
| Yao Zheng |
MS-000 General Papers
| Identification of effective cohesive parameters for FRP-concrete interface using multi-island genetic algorithm | |
| Tianxiang Shi, Yangyang Wang, Miao Pang, Yongqiang Zhang |
MS-001 Theory and Formulation for Novel Computational Methods
| A novel high-order wavelet precise integration method for nonlinear dynamic problems | |
| Bin Zhang, Jizeng Wang |
MS-009 Computational Methods in Fluid Engineering
| Adaptive multiresolution second-generation wavelet collocation upwind schemes for hyperbolic conservation law | |
| Bing Yang, Youhe Zhou, Jizeng Wang |
MS-013 High Performance Computing and Related Topics
| Early Detection of Transformer Faults Using AI-based DGA Technology | |
| Hongjie Zheng, Ryuji Shioya, Yasushi Nakabayashi, Masato Masuda, Hiroshi Matoba, Keiichi Nakajima, Hideyuki Okakura, Hiroki Nakamura |
MS-014 Progresses of Computational Marine Hydrodynamics
| GPU-based parallel WCSPH method for free surface flows | |
| Xi Yang, Guangqi Liang, Taian Hu, Guiyong Zhang, Zhifan Zhang |
| Lamellar Vortex Generator around Submarine Hull Rudder:ANN/GA-based Sound Source /Structural Optimization | |
| Xinxin Meng, Yuan Zhuang, Decheng Wan |
| Study on the effect of disturbances at the inlet boundary to the turbulent transition noise based on parabolized stability equation | |
| Bohan Xie, Yuan Zhuang, Decheng Wan |
| Numerical simulation of mooring platforms in regular waves using MPS method | |
| Congyi Huang, Weiwen Zhao, Decheng Wan |
MS-020 Multiscale modelling of engineering materials
| Electromagnetic-mechanical behavior and homogenization modelling of superconducting magnets | |
| Huadong Yong, Sijian Wang, Youhe Zhou |
MS-023 Meshfree and Other Advanced Numerical Methods for Engineering and Applied Mathematical Problems
| The radial basis function pseudo-spectral method with ghost points for dynamic bioheat transfer | |
| Xinglong Lu, Ruiping Niu, Shijie Zhao |
| SPH numerical simulation of interaction between different types of baffles and liquid sloshing | |
| Heng Zhang, Bo Liu, Hanxiang Wang, Yanxin Liu, Xiangwei Dong, Yu Zhang |
| Numerical Simulation of Complex Fluid Flows Using Neural Networks | |
| Jianying Zhang |
| Free Vibration Analysis of Welded Curved Beams using modified variational method | |
| Runxin Zhang |
MS-026 Computational Acoustics and Elastodynamics in Materials and Structures
| Precise control of Lamb wave bandgaps for piezoelectric metamaterial plate enabled by tunable electric circuits | |
| Yanzheng Wang, Weiqiu Chen, Chuanzeng Zhang |
| Elastic Metasurfaces Based on Data-Driven Machine Learning | |
| Weijian Zhou |
MS-028 Kernel and machine learning based solutions of PDEs
| G-CSRBN: Graph-based Approach With Compactly Supported Radial Basis Function Neural Networks | |
| jin Hong Ren, ping Rui Niu, en Hong Jia, wen Jian Zhang |
| Inverse design of elastic wave metamaterials based on hybrid reinforcement learning and particle swarm optimization approach | |
| Wenzhi Xu, Zhuojia Fu, Xiaoying Zhuang |
MS-039 Computational Particle Dynamics
| DEM modelling of the debris-baffle interaction problem | |
| Bei ZHANG |
| Multi-phase Simulation of Selective Laser Melting with Ray Tracing by Using Adaptive Resolution SPH Method | |
| Yibo Ma, Lingxiao Ma, Xu Zhou, Moubin Liu |
MS-042 Structural Reliability Analysis and Design Optimization
| An interval analysis method for chatter stability of cutting systems with uncertainty | |
| Jiachang Tang, Taolin Zhang |
| A reliability-based design optimization method by instance-based transfer learning and the application of nuclear fuel element design | |
| Haibo Liu, Zhe Zhang |
Publication Only
| Mesoscale damage and fracture simulation of lightweight aggregate concrete under compression based on Voronoi-random walk algorithm | |
| Binhui Wang, Xiaogang Song, Zihua Zhang |
.explain-selected-button.explain-selected-text-selected-show-button { display: block !important; } .explain-selected-button.explain-selected-expanded { width: 400px; border: 0px; cursor: default; height: 350px; overflow: auto; box-shadow: rgba(15, 15, 15, 0.05) 0px 0px 0px 1px, rgba(15, 15, 15, 0.1) 0px 3px 6px, rgba(15, 15, 15, 0.2) 0px 9px 24px; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded) { width: 35px; height: 35px; background: transparent; border-radius: 50%; opacity: 0.5; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded):hover::before { content: ""; position: absolute; width: 35px; height: 35px; background-color: rgba(128, 0, 128, 0.5); border-radius: 50%; top: 50%; left: 50%; transform: translate(-50%, -50%); animation: explain-selected-growAndFade 2.0s ease-in-out; animation-iteration-count: infinite; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded)::after { content: ""; position: absolute; width: 10px; height: 10px; background-color: rgb(128, 0, 128); top: 50%; left: 50%; transform: translate(-50%, -50%); border-radius: 50%; } .explain-selected-button.explain-selected-circle:not(.explain-selected-expanded):hover::after { width: 14px; height: 14px; } @keyframes explain-selected-growAndFade { 0% { width: 10px; height: 10px; opacity: 1; } 100% { width: 30px; height: 30px; opacity: 0; } } .explain-selected-button { display: none !important; width: 120px; height: 28px; border-radius: 4px; border: 0px; position: absolute; z-index: 9999; opacity: 1; cursor: pointer; background: white; text-align:left; font-family: Tahoma,Arial,Helvetica Neue,Helvetica,sans-serif; background-color: #fff; color: #333; } .swal2-icon-show-explainselected { border: none; } .swal2-container p { margin: 0 !important; }