BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Asia/Tokyo X-LIC-LOCATION:Asia/Tokyo BEGIN:STANDARD TZOFFSETFROM:+0900 TZOFFSETTO:+0900 TZNAME:JST DTSTART:18871231T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20250110T023313Z LOCATION:Hall B7 (1)\, B Block\, Level 7 DTSTART;TZID=Asia/Tokyo:20241206T104500 DTEND;TZID=Asia/Tokyo:20241206T115500 UID:siggraphasia_SIGGRAPH Asia 2024_sess144@linklings.com SUMMARY:Fluid Simulation DESCRIPTION:Technical Papers\n\nEach Paper gives a 10 minute presentation. \n\nSolid-Fluid Interaction on Particle Flow Maps\n\nWe propose a novel so lid-fluid interaction method for coupling elastic solids with impulse flow maps. Our key idea is to unify the representation of fluid and solid comp onents as particle flow maps with different lengths and dynamics. The soli d-fluid coupling is enabled by implementing two novel mec...\n\n\nDuowen C hen and Zhiqi Li (Georgia Institute of Technology); Junwei Zhou (Purdue Un iversity, University of Michigan); Fan Feng (Dartmouth College); Tao Du (T singhua University, Shanghai Qi Zhi Institute); and Bo Zhu (Georgia Instit ute of Technology)\n---------------------\nAn Eulerian Vortex Method on Fl ow Maps\n\nWe present an Eulerian vortex method based on the theory of flo w maps to simulate the complex vortical motions of incompressible fluids. Central to our method is the novel incorporation of the flow-map transport equations for line elements, which, in combination with a bi-directional marching scheme...\n\n\nSinan Wang (Georgia Institute of Technology, Unive rsity of Hong Kong); Yitong Deng (Stanford University); Molin Deng (Georgi a Institute of Technology); Hong-Xing Yu (Stanford University); Junwei Zho u (Purdue University, University of Michigan); Duowen Chen (Georgia Instit ute of Technology); Taku Komura (University of Hong Kong); Jiajun Wu (Stan ford University); and Bo Zhu (Georgia Institute of Technology)\n---------- -----------\nAn Impulse Ghost Fluid Method for Simulating Two-Phase Flows\ n\nThis paper introduces a two-phase interfacial fluid model based on the impulse variable to capture complex vorticity-interface interactions. Our key idea is to leverage bidirectional flow map theory to enhance the trans port accuracy of both vorticity and interfaces simultaneously and address their c...\n\n\nYuchen Sun (Georgia Institute of Technology); Linglai Chen (Harvard University); Weiyuan Zeng (Zhejiang University); Tao Du (Tsinghu a University, Shanghai Qi Zhi Institute); Shiying Xiong (Zhejiang Universi ty); and Bo Zhu (Georgia Institute of Technology)\n---------------------\n A Unified MPM Framework supporting Phase-field Models and Elastic-viscopla stic Phase Transition\n\nRecent years have witnessed the rapid deployment of numerous physicsbased modeling and simulation algorithms and techniques for fluids, solids, and their delicate coupling in computer animation. Ho wever, it still remains a challenging problem to model the complex elastic -viscoplastic behaviors durin...\n\n\nZaili Tu, Chen Li, Zipeng Zhao, Long Liu, Chenhui Wang, and Changbo Wang (East China Normal University School of Computer Science and Technology) and Hong Qin (Stony Brook University) \n---------------------\nFluid Implicit Particles on Coadjoint Orbits\n\nW e propose Coadjoint Orbit FLIP (CO-FLIP), a high order accurate, structure preserving fluid simulation method in the hybrid Eulerian-Lagrangian fram ework. We start with a Hamiltonian formulation of the incompressible Euler Equations, and then, using a local, explicit, and high order divergence f ree...\n\n\nMohammad Sina Nabizadeh, Ritoban Roy-Chowdhury, Hang Yin, Ravi Ramamoorthi, and Albert Chern (University of California San Diego)\n----- ----------------\nParticle Laden Fluid on Flow Maps\n\nWe propose a novel framework for simulating ink as a particle-laden flow using particle flow maps. Our method addresses the limitations of existing flow-map techniques , which struggle with dissipative forces like viscosity and drag, thereby extending the application scope from solving the Euler equa...\n\n\nZhiqi Li, Duowen Chen, and Candong Lin (Georgia Institute of Technology); Jinyua n Liu (Dartmouth College); and Bo Zhu (Georgia Institute of Technology)\n\ nRegistration Category: Full Access, Full Access Supporter\n\nLanguage For mat: English Language\n\nSession Chair: Kui Wu (LightSpeed Studios) END:VEVENT END:VCALENDAR