BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Asia/Seoul X-LIC-LOCATION:Asia/Seoul BEGIN:STANDARD TZOFFSETFROM:+0900 TZOFFSETTO:+0900 TZNAME:KST DTSTART:18871231T000000 DTSTART:19881009T020000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20230103T035347Z LOCATION:Room 324\, Level 3\, West Wing DTSTART;TZID=Asia/Seoul:20221207T170000 DTEND;TZID=Asia/Seoul:20221207T183000 UID:siggraphasia_SIGGRAPH Asia 2022_sess175@linklings.com SUMMARY:Simulation of Everything DESCRIPTION:Technical Papers, TOG\n\nThe presentations will be followed by a 30-min Interactive Discussion Session at Room 325-CD.\n\nThe Technical Papers program is the premier international forum for disseminating new sc holarly work in computer graphics and interactive techniques. Technical Pa pers are published as a special issue of ACM Transactions on Graphics. In addition to papers selected by the SIGGRAPH Asia 2022 Technical Papers Jur y, the conference presents papers that have been published in ACM Transact ions on Graphics during the past year. Accepted papers adhere to the highe st scientific standards.\n\nShape from Release: Inverse Design and Fabrica tion of Controlled Release Structures\n\nPanetta, Mohammadian, Luci, Babae i\n\nObjects with different shapes can dissolve in significantly different ways inside a solution. Predicting different shapes’ dissolution dynamics is an important problem especially in pharmaceutics. More important and c hallenging, however, is controlling the dissolution via shape, i.e., desig nin...\n\n---------------------\nBreaking Good: Fracture Modes for Realtim e Destruction\n\nSellán, Luong, Mattos Da Silva, Ramakrishnan, Yang...\n\n Drawing a direct analogy with the well-studied vibration or elastic modes, we introduce an object’s fracture modes, which constitute its preferred o r most natural ways of breaking. We formulate a sparsified eigenvalue prob lem, which we solve iteratively to obtain the n lowest-energy modes. The.. .\n\n---------------------\nSimulation of Hand Anatomy Using Medical Imagi ng\n\nZheng, Wang, Huang, Barbic\n\nPrecision modeling of the hand interna l musculoskeletal anatomy has been largely limited to individual poses, an d has not been connected into continuous volumetric motion of the hand ana tomy actuating across the hand's entire range of motion. This is for a goo d reason, as hand anatomy and its motion...\n\n---------------------\nDiff erentiable Simulation of Inertial Musculotendons\n\nWang, Verheul, Yeo, Ka lantari, Sueda\n\nWe propose a simple and practical approach for incorpora ting the effects of muscle inertia, which has been ignored by previous mus culoskeletal simulators in both graphics and biomechanics. We approximate the inertia of the muscle by assuming that muscle mass is distributed alon g the centerline of th...\n\n---------------------\nFast Stabilization of Inducible Magnet Simulation\n\nKim, Han\n\nThis paper presents a novel met hod for simulating inducible rigid magnets efficiently and stably. In the proposed method, inducible magnets are magnetized by a modified magnetizat ion dynamics, so that the magnetic equilibrium can be obtained in a comput ationally efficient manner. Furthermore, our mo...\n\n-------------------- -\nIsotropic ARAP energy using Cauchy-Green invariants\n\nLin, Chitalu, Ko mura\n\nIsotropic As-Rigid-As-Possible (ARAP) energy has been popular for shape editing, mesh parametrisation and soft-body simulation for almost tw o decades. However, a formulation using Cauchy-Green (CG) invariants has a lways been unclear, due to a rotation-polluted trace term that cannot be d irectly expr...\n\n\nRegistration Category: FULL ACCESS, ON-DEMAND ACCESS\ n\nLanguage: ENGLISH\n\nFormat: IN-PERSON, ON-DEMAND END:VEVENT END:VCALENDAR