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Fully implicit bound-preserving discontinuous Galerkin algorithm with unstructured block preconditioners for multiphase flows in porous media Journal article
Jiali Tu, Haijian Yang, Rongliang Chen, Li Luo. Fully implicit bound-preserving discontinuous Galerkin algorithm with unstructured block preconditioners for multiphase flows in porous media[J]. Advances in Water Resources, 2024, 194, 104844.
Authors:  Jiali Tu;  Haijian Yang;  Rongliang Chen;  Li Luo
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.0/4.5 | Submit date:2024/08/15
Reservoir Simulation  Fully Implicit Scheme  Bound-preserving  Discontinuous Galerkin  Unstructured Block Preconditioner  Parallel Computing  
Mixed Reality Visualization and Interactive Hemodynamic Computation of Human Brain Conference paper
Fenfen Qi, Yingzhi Liu, Yujie Gong, Jjingyuan Wang, Jjie Zhou, Xinhong Wang, Rongliang Chen, Ruisong Huang, LUO LI, Xiao-Chuan Cai. Mixed Reality Visualization and Interactive Hemodynamic Computation of Human Brain[C], 2024.
Authors:  Fenfen Qi;  Yingzhi Liu;  Yujie Gong;  Jjingyuan Wang;  Jjie Zhou; et al.
Adobe PDF | Favorite |  | Submit date:2024/08/16
A Collaborative Mixed Reality Platform for the Planning of Vascular Surgery Conference paper
Jing-Yuan Wang, Yujie Gong, Jie Zhou, Fenfen Qi, Yingzhi Liu, Zaiheng Cheng, Rongliang Chen, Xinhong Wang, Li Luo, Xiao-Chuan Cai. A Collaborative Mixed Reality Platform for the Planning of Vascular Surgery[C]:Institute of Electrical and Electronics Engineers Inc., 2024, 9-16.
Authors:  Jing-Yuan Wang;  Yujie Gong;  Jie Zhou;  Fenfen Qi;  Yingzhi Liu; et al.
Adobe PDF | Favorite | TC[Scopus]:0 | Submit date:2024/08/14
Abdominal Aorta  Collaborative Mixed Reality  Computational Hemodynamics  Interactive Control By Holographic Devices  Parallel Computing  Surgical Planning  
Mixed Reality Visualization and Interactive Hemodynamic Computation of the Human Brain Conference paper
Fenfen Qi, Yingzhi Liu, Yujie Gong, Jjingyuan Wang, Jjie Zhou, Xinhong Wang, Rongliang Chen, Ruisong Huang, Li Luo, Xiao-Chuan Cai. Mixed Reality Visualization and Interactive Hemodynamic Computation of the Human Brain[C]:Institute of Electrical and Electronics Engineers Inc., 2024, 17 - 24.
Authors:  Fenfen Qi;  Yingzhi Liu;  Yujie Gong;  Jjingyuan Wang;  Jjie Zhou; et al.
Adobe PDF | Favorite | TC[Scopus]:0 | Submit date:2024/08/14
Functional Atlas  Hemodynamics  Human Brain  Interactive Parallel Computation  Mixed Reality Visualization  Unsteady Incompressible Navier-stokes Equations  
A highly parallel algorithm for simulating the elastodynamics of a patient-specific human heart with four chambers using a heterogeneous hyperelastic model Journal article
Jiang, Yi, Yan, Zhengzheng, Wang, Xinhong, Chen, Rongliang, Cai, Xiao Chuan. A highly parallel algorithm for simulating the elastodynamics of a patient-specific human heart with four chambers using a heterogeneous hyperelastic model[J]. Journal of Computational Physics, 2024, 508, 113027.
Authors:  Jiang, Yi;  Yan, Zhengzheng;  Wang, Xinhong;  Chen, Rongliang;  Cai, Xiao Chuan
Favorite | TC[WOS]:0 TC[Scopus]:1  IF:3.8/4.5 | Submit date:2024/05/16
Domain Decomposition  Finite Element  Fully Implicit Method  Human Heart  Hyperelasticity Model  Parallel Computing  
An Interactive Platform for a High Performance Digital Twin of a Human Heart Conference paper
Yujie Gong, Fenfen Qi, Yingzhi Liu, Jing-Yuan Wang, Tianhao Ma, Zaiheng Cheng, Yi Jiang, Rongliang Chen, Xinhong Wang, Li Luo, Xiao-Chuan Cai. An Interactive Platform for a High Performance Digital Twin of a Human Heart[C]. IEEE, IEEE Computer Society's Technical Community on the Internet (TCI), Kanazawa University:IEEE, 2023, 193-200.
Authors:  Yujie Gong;  Fenfen Qi;  Yingzhi Liu;  Jing-Yuan Wang;  Tianhao Ma; et al.
Adobe PDF | Favorite | TC[Scopus]:4 | Submit date:2023/08/14
Interactive Hologram  Digital Twin  Hyperelasticity Model Of The Heart  Finite Element  Domain Decomposition  Parallel Processing  
A highly parallel fully implicit domain decomposition method for the simulation of the hemodynamics of a patient-specific artery at the full-body scale Journal article
Qin, Shanlin, Chen, Rongliang, Wu, Bokai, Cai, Xiao Chuan. A highly parallel fully implicit domain decomposition method for the simulation of the hemodynamics of a patient-specific artery at the full-body scale[J]. Journal of Computational Physics, 2023, 472.
Authors:  Qin, Shanlin;  Chen, Rongliang;  Wu, Bokai;  Cai, Xiao Chuan
Favorite | TC[WOS]:1 TC[Scopus]:4  IF:3.8/4.5 | Submit date:2023/02/08
Blood Flow Distribution  Domain Decomposition Method  Finite Element Method  Incompressible Navier-stokes Equations  Parallel Computing  Patient-specific-full-body Artery  
Controlling sulfurization of 2D Mo2C crystal for Mo2C/MoS2-based memristor and artificial synapse Journal article
Tang, Xin, Yang, Leilei, Huang, Junhua, Chen, Wenjun, Li, Baohua, Yang, Shaodian, Yang, Rongliang, Zeng, Zhiping, Tang, Zikang, Gui, Xuchun. Controlling sulfurization of 2D Mo2C crystal for Mo2C/MoS2-based memristor and artificial synapse[J]. npj Flexible Electronics, 2022, 6(1), 93.
Authors:  Tang, Xin;  Yang, Leilei;  Huang, Junhua;  Chen, Wenjun;  Li, Baohua; et al.
Favorite | TC[WOS]:26 TC[Scopus]:24 | Submit date:2023/01/30
Impact of Pressure Wire on Fractional Flow Reserve and Hemodynamics of the Coronary Arteries: A Computational and Clinical Study Journal article
Yan, Zhengzheng, Yao, Zhifeng, Guo, Weifeng, Shang, Dandan, Chen, Rongliang, Liu, Jia, Cai, Xiao Chuan, Ge, Junbo. Impact of Pressure Wire on Fractional Flow Reserve and Hemodynamics of the Coronary Arteries: A Computational and Clinical Study[J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 2022, 70(5), 1683-1691.
Authors:  Yan, Zhengzheng;  Yao, Zhifeng;  Guo, Weifeng;  Shang, Dandan;  Chen, Rongliang; et al.
Favorite | TC[WOS]:8 TC[Scopus]:9  IF:4.4/4.8 | Submit date:2023/01/30
Cardiovascular Physiology  Computational Fluid Dynamics  Coronary Artery Disease  Fractional Flow Reserve  Pressure Wire  
A parallel domain decomposition method for large eddy simulation of blood flow in human artery with resistive boundary condition Journal article
Liao, Zi Ju, Qin, Shanlin, Chen, Rongliang, Cai, Xiao Chuan. A parallel domain decomposition method for large eddy simulation of blood flow in human artery with resistive boundary condition[J]. COMPUTERS & FLUIDS, 2022, 232, 105201.
Authors:  Liao, Zi Ju;  Qin, Shanlin;  Chen, Rongliang;  Cai, Xiao Chuan
Favorite | TC[WOS]:7 TC[Scopus]:8  IF:2.5/2.7 | Submit date:2022/02/21
Computational Hemodynamics  Domain Decomposition  Finite Element Method  Large Eddy Simulation  Parallel Computing  Resistive Boundary Condition