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:20260114T163649Z LOCATION:Meeting Room C4.11\, Level 4 (Convention Centre) DTSTART;TZID=Australia/Melbourne:20231214T114000 DTEND;TZID=Australia/Melbourne:20231214T124000 UID:siggraphasia_SIGGRAPH Asia 2023_sess131@linklings.com SUMMARY:Simulation and Animation of Natural Phenomena DESCRIPTION:A Physically-inspired Approach to the Simulation of Plant Wilt ing\n\nPlants are among the most complex objects to be modeled in computer graphics. While a large body of work is concerned with structural modelin g and the dynamic reaction to external forces, our work focuses on the dyn amic deformation caused by plant internal wilting processes. To this end, we motivate...\n\n\nFilippo Maggioli (Sapienza - University of Rome), Jona than Klein and Torsten Hädrich (KAUST), Emanuele Rodolà (Sapienza - Univer sity of Rome), Wojtek Pałubicki (AMU), Sören Pirk (CAU), and Dominik L. Mi chels (KAUST)\n---------------------\nPower Plastics: A Hybrid Lagrangian/ Eulerian Solver for Mesoscale Inelastic Flows\n\nWe propose a novel hybrid Lagrangian/Eulerian method for simulating inelastic materials that genera tes high-quality particle distributions with strict volume control. At its core, our approach integrates an updated Lagrangian time discretization o f continuum mechanics with the Power Particle-In-Cell...\n\n\nZiyin Qu (Un iversity of Pennsylvania, University of California Los Angeles); Minchen L i (University of California Los Angeles, Carnegie Mellon University); Yin Yang (University of Utah); Chenfanfu Jiang (University of California Los A ngeles); and Fernando de Goes (Pixar Animation Studios)\n----------------- ----\nReal-time Height-field Simulation of Sand and Water Mixtures\n\nWe p ropose a height-field-based real-time simulation method for sand and water mixtures. Inspired by the shallow-water assumption, our approach extends the governing equations to handle two-phase flows of sand and water using height fields. Our depth-integrated governing equations can model the elas ...\n\n\nHaozhe Su (Rutgers University, LightSpeed Studios); Siyu Zhang an d Zherong Pan (LightSpeed Studios); Mridul Aanjaneya (Rutgers University); and Xifeng Gao and Kui Wu (LightSpeed Studios)\n---------------------\nAu thoring and Simulating Meandering Rivers\n\nWe present a method for intera ctively authoring and simulating meandering river networks. Starting from a terrain with an initial low-resolution network encoded as a directed gra ph, we simulate the evolution of the path of the different channels using a physically-based migration equation augmented ...\n\n\nAxel Paris (Unive rsité Claude Bernard Lyon, Adobe); Eric Guérin (LIRIS); Pauline Collon (Un iversité de Lorraine); and Eric Galin (LIRIS)\n---------------------\nAnim ating Street View\n\nWe present a system that automatically brings street view imagery to life by populating it with naturally behaving, animated pe destrians and vehicles. Our approach is to remove existing people and vehi cles from the input image, insert moving objects with proper scale, angle, motion and appearance, p...\n\n\nMengyi Shan, Brian Curless, Ira Kemelmac her-Shlizerman, and Steve Seitz (University of Washington)\n\nRegistration Category: Full Access\n\nSession Chair: Neil A. Dodgson (Victoria Univers ity of Wellington) END:VEVENT END:VCALENDAR