Minchen Li Assistant Professor CMU Scholars Page ORCiD Office 228 Smith Hall Email minchenl@andrew.cmu.edu Department Computer Science Department Administrative Support Person Christina Contreras Research Interests Graphics Machine Learning Robotics Scientific Computing Biography Minchen is an assistant professor at CMU CSD and formerly an assistant adjunct professor at UCLA's Department of Mathematics. He completed his Ph.D. at the SIG Center for Computer Graphics at the University of Pennsylvania, where he remained a postdoctoral researcher. His Ph.D. dissertation featured the Incremental Potential Contact (IPC) method, a breakthrough in frictional contact simulation in nonlinear solid dynamics. Minchen's research has won multiple awards, including the 2021 ACM SIGGRAPH Outstanding Doctoral Dissertation Award. He has completed four internships at Adobe Research and earned an M.Sc. in Computer Science from the University of British Columbia. His research focuses on advancing physical simulation in visual computing, manufacturing, and robotics, aiming for robustness, efficiency, accuracy, and versatility through methods that combine numerical analysis, high-performance computing, and machine learning. Research/Teaching Statement The efficacy of solid and fluid simulation methods in the evolving landscape of visual computing, manufacturing, and robotics industries is fundamentally determined by robustness, efficiency, accuracy, and versatility. However, achieving a harmonious balance among these crucial characteristics remains an open challenge. Minchen's research is committed to advancing the frontiers of physical simulation by striving for unprecedented levels of performance in all these areas, leveraging a comprehensive approach that combines numerical analysis, high-performance computing, and machine learning. Publications Journal Article A Contact Proxy Splitting Method for Lagrangian Solid-Fluid Coupling 2023 • ACM Transactions on Graphics • 42(4): Xie T, Li M, Yang Y, Jiang C Journal Article A Sparse Distributed Gigascale Resolution Material Point Method 2023 • ACM Transactions on Graphics • 42(2): Qiu Y, Reeve ST, Li M, Yang Y, Slattery SR, Jiang C Journal Article Augmented Incremental Potential Contact for Sticky Interactions 2023 • IEEE Transactions on Visualization and Computer Graphics Fang Y, Li M, Cao Y, Li X, Wolper J, Yang Y, Jiang C Conference Multi-Layer Thick Shells 2023 • PROCEEDINGS OF SIGGRAPH 2023 CONFERENCE PAPERS, SIGGRAPH 2023 Chen Y, Xie T, Yuksel C, Kaufman D, Yang Y, Jiang C, Li M Conference Neural Stress Fields for Reduced-order Elastoplasticity and Fracture 2023 • Proceedings - SIGGRAPH Asia 2023 Conference Papers, SA 2023 Zong Z, Li X, Li M, Chiaramonte MM, Matusik W, Grinspun E, Carlberg K, Jiang C, Chen PY
Journal Article A Contact Proxy Splitting Method for Lagrangian Solid-Fluid Coupling 2023 • ACM Transactions on Graphics • 42(4): Xie T, Li M, Yang Y, Jiang C
Journal Article A Sparse Distributed Gigascale Resolution Material Point Method 2023 • ACM Transactions on Graphics • 42(2): Qiu Y, Reeve ST, Li M, Yang Y, Slattery SR, Jiang C
Journal Article Augmented Incremental Potential Contact for Sticky Interactions 2023 • IEEE Transactions on Visualization and Computer Graphics Fang Y, Li M, Cao Y, Li X, Wolper J, Yang Y, Jiang C
Conference Multi-Layer Thick Shells 2023 • PROCEEDINGS OF SIGGRAPH 2023 CONFERENCE PAPERS, SIGGRAPH 2023 Chen Y, Xie T, Yuksel C, Kaufman D, Yang Y, Jiang C, Li M
Conference Neural Stress Fields for Reduced-order Elastoplasticity and Fracture 2023 • Proceedings - SIGGRAPH Asia 2023 Conference Papers, SA 2023 Zong Z, Li X, Li M, Chiaramonte MM, Matusik W, Grinspun E, Carlberg K, Jiang C, Chen PY
