BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Australia/Melbourne X-LIC-LOCATION:Australia/Melbourne BEGIN:DAYLIGHT TZOFFSETFROM:+1000 TZOFFSETTO:+1100 TZNAME:AEDT DTSTART:19721003T020000 RRULE:FREQ=YEARLY;BYMONTH=4;BYDAY=1SU END:DAYLIGHT BEGIN:STANDARD DTSTART:19721003T020000 TZOFFSETFROM:+1100 TZOFFSETTO:+1000 TZNAME:AEST RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20260114T163720Z LOCATION:Meeting Room C4.11\, Level 4 (Convention Centre) DTSTART;TZID=Australia/Melbourne:20231212T153000 DTEND;TZID=Australia/Melbourne:20231212T164000 UID:siggraphasia_SIGGRAPH Asia 2023_sess121@linklings.com SUMMARY:Fluid Simulation DESCRIPTION:GARM-LS: A Gradient-Augmented Reference-Map Method for Level-S et Fluid Simulation\n\nThis paper presents a novel level-set method by com bining gradient augmentation and reference mapping to enable high-fidelity interface tracking and surface tension flow simulation. At the center of our approach is a novel reference-map algorithm to concurrently convect le vel-set values and gradient...\n\n\nXingqiao Li (School of IST & National Key Lab. of AGI, Peking University); Xingyu Ni (School of CS & National Ke y Lab. of AGI, Peking University); Bo Zhu (Georgia Institute of Technology , Dartmouth College); Bin Wang (Beijing Institute for General Artificial I ntelligence); and Baoquan Chen (School of IST & National Key Lab. of AGI, Peking University)\n---------------------\nHigh-Order Moment-Encoded Kinet ic Simulation of Turbulent Flows\n\nKinetic solvers for incompressible flu id simulation were designed to run efficiently on massively parallel archi tectures such as GPUs. While these lattice Boltzmann solvers have recently proven much faster and more accurate than common macroscopic Navier-Stoke s-based solvers in graphics, it is alway...\n\n\nWei Li, Tongtong Wang, Zh erong Pan, Xifeng Gao, and Kui Wu (LightSpeed Studios) and Mathieu Desbrun (Inria/X)\n---------------------\nHigh Density Ratio Multi-fluid Simulati on with Peridynamics\n\nMultiple fluid simulation has raised wide research interest in recent years. Despite the impressive successes of current wor ks, simulation of scenes containing mixing or unmixing of high-density-rat io phases using particle-based discretizations still remains a challenging task. In this paper, we pro...\n\n\nHan Yan and Bo Ren (Nankai University )\n---------------------\nAn Implicitly Stable Mixture Model for Dynamic M ulti-fluid Simulations\n\nParticle-based simulation has become increasingl y popular in real-time applications due to its efficiency and adaptability , especially in generating highly dynamic fluid effects. Nevertheless, the swift and stable simulation of interactions between distinct fluids conti nues to pose challenges for cu...\n\n\nYanrui Xu (University of Groningen, University of Science and Technology Beijing); Xiaokun Wang (University o f Science and Technology Beijing, Bournemouth University); Jiamin Wang, Ch ongming Song, Tiancheng Wang, and Yanlan Zhang (University of Science and Technology Beijing); Jian Chang and Jianjun Zhang (Bournemouth University) ; Jiri Kosinka (University of Groningen); Alexandru Telea (Utrecht Univers ity); and Xiaojuan Ban (University of Science and Technology Beijing)\n--- ------------------\nA Parametric Kinetic Solver for Simulating Boundary-Do minated Turbulent Flow Phenomena\n\nBoundary layer flow plays a very impor tant role in shaping the entire flow feature near and behind obstacles ins ide fluids. Thus, boundary treatment methods are crucial for a physically consistent fluid simulation, especially when turbulence occurs at a high R eynolds number, in which accurately hand...\n\n\nMengyun Liu and Xiaopei L iu (ShanghaiTech University)\n\nRegistration Category: Full Access\n\nSess ion Chair: Christopher Batty (University of Waterloo) END:VEVENT END:VCALENDAR