BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:America/Denver X-LIC-LOCATION:America/Denver BEGIN:DAYLIGHT TZOFFSETFROM:-0700 TZOFFSETTO:-0600 TZNAME:MDT DTSTART:19700308T020000 RRULE:FREQ=YEARLY;BYMONTH=3;BYDAY=2SU END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0600 TZOFFSETTO:-0700 TZNAME:MST DTSTART:19701101T020000 RRULE:FREQ=YEARLY;BYMONTH=11;BYDAY=1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20250522T212947Z LOCATION:Mile High Pre-Function Area DTSTART;TZID=America/Denver:20240729T090000 DTEND;TZID=America/Denver:20240729T173000 UID:siggraph_SIGGRAPH 2024_sess389@linklings.com SUMMARY:Posters: Animation & Simulation DESCRIPTION:7. Revitalizing Traditional Animation: Pre-Composite Frame Int erpolation as a Production Catalyst\n\nFor over a century, audiences of al l ages have been entertained by the art of animation. However, the industr y has shifted towards computer-generated animation, leading to a decline i n traditional, hand-drawn animation. There is a unique opportunity for com putational innovation with a novel approach...\n\n\nSean Brown and Anu Bou rgeois (Georgia State University)\n---------------------\n1. A Multi-modal Framework for 3D Facial Animation Control\n\nWe present a multi-model fr amework for 3D facial animation control that uses video and audio input to drive the model with various geometry and rigging information. Such infor mation is easy to obtain in practice and robust in animation control. We c onduct user studies to evaluate natualness and acc...\n\n\nChong Cao, Qiuy ang Xiao, and Chengwei Shi (Beihang University)\n---------------------\n2. Animated Ink Bleeding with Computational Fluid Dynamics\n\nThis work pres ents an advanced computational approach for simulating the traditional ink -on-wet paper art technique digitally, focusing on capturing the dynamic i nterplay between ink, water, and paper through the Lattice Boltzmann Metho d (LBM) by integrating the material's porosity with the fluid...\n\n\nG rzegorz Gruszczynski (IDEAS NCBR); Mateusz Tokarz (Platige Image S.A.); an d Przemyslaw Musialski (New Jersey Institute of Technology (NJIT), IDEAS N CBR)\n---------------------\n4. Generative AI for 2D Character Animation\n \nIn this pilot project, we teamed up with artists to develop new workflow s for 2D animation while producing a short educational cartoon. We identif ied several workflows to streamline the animation process, bringing the ar tists’ vision to the screen more effectively.\n\n\nJaime Guajardo and Ozgu n Bursalioglu (Google) and Dan B. Goldman (Google Research)\n------------- --------\n6. Projection-Based Handling of Contact Constraints\n\nSolving d eformation simulations with contact constraints using iterative solvers is challenging. We propose a projection-based method enabling the use of GPU -accelerated preconditioned conjugate gradient method to simulate contact. \n\n\nStephanie Ferreira, Johannes Sebastian Mueller-Roemer, and Daniel We ber (Fraunhofer IGD, Technical University of Darmstadt)\n----------------- ----\n3. FluidsFormer: A Transformer-Based Approach for Continuous Fluid I nterpolation\n\nGiven input keyframes, FluidsFormer interpolates substeps of a fluid simulation, resulting in a smooth and realistic animation.\n\n\ nBruno Roy (Autodesk Research)\n---------------------\n8. Simulating High- Resolution 3D Smoke with 2D Turbulence Transfer\n\nThis poster presents a new turbulence transfer method to efficiently synthesize high resolution 3 D smoke by using 2D turbulence transfer.\n\n\nYoshinori Dobashi (Hokkaido University, Prometech CG Research) and Syuhei Sato (Hosei University, Prom etech CG Research)\n---------------------\n5. Non-Hermitian Absorbing Laye rs for Schrödinger’s Smoke\n\nWe propose a novel non-Hermitian absorbing l ayer method for unconditionally stable open boundary conditions in incompr essible Schrödinger flow, which dissipates velocity without auxiliary vari ables while retaining the benefits of the original incompressible Schrödin ger flow and facilitating implemen...\n\n\nNaoyuki Hirasawa and Takashi Ka nai (University of Tokyo) and Ryoichi Ando (Unaffiliated)\n\nRegistration Category: Full Conference, Full Conference Supporter, Experience, Exhibito r Full Conference, Exhibitor Experience END:VEVENT END:VCALENDAR