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:20240214T070312Z LOCATION:Meeting Room C4.8\, Level 4 (Convention Centre) DTSTART;TZID=Australia/Melbourne:20231215T143000 DTEND;TZID=Australia/Melbourne:20231215T152500 UID:siggraphasia_SIGGRAPH Asia 2023_sess171@linklings.com SUMMARY:Deformable Solids DESCRIPTION:Technical Papers\n\nA Hessian-Based Field Deformer for Real-Ti me Topology-Aware Shape Editing\n\nShape manipulation is a central researc h topic in computer graphics. Topology editing, such as breaking apart con nections, joining disconnected ends, and filling/opening a topological hol e, is generally more challenging than geometry editing. In this paper, we observe that the saddle points of the s...\n\n\nYunxiao Zhang, Zixiong Wan g, Zihan Zhao, and Rui Xu (Shandong University); Shuangmin Chen (Qingdao U niversity of Science and Technology); Shiqing Xin (Shandong University); W enping Wang (Texas A&M University); and Changhe Tu (Shandong University)\n ---------------------\nSecond-Order Finite Elements for Deformable Surface s\n\nWe present a computational framework for simulating deformable surfac es with second-order triangular finite elements. Our method develops numer ical schemes for discretizing stretching, shearing, and bending energies o f deformable surfaces in a second-order finite-element setting. In particu lar, we i...\n\n\nQiqin Le (Shanghai Qi Zhi Institute); Yitong Deng (Stanf ord University); Jiamu Bu (Tsinghua University); Bo Zhu (Georgia Institute of Technology); and Tao Du (Tsinghua University, Shanghai Qi Zhi Institut e)\n---------------------\nSubspace Mixed Finite Elements for Real-Time He terogeneous Elastodynamics\n\nReal-time elastodynamic solvers are well-sui ted for the rapid simulation of ho\nmogeneous elastic materials, with high -rates generally enabled by aggressive\nearly termination of timestep solv es. Unfortunately, the introduction of strong\ndomain heterogeneities can make these solvers slow to converge. ...\n\n\nTy Trusty, Otman Benchekroun , and Eitan Grinspun (University of Toronto); Danny M. Kaufman (Adobe, Uni versity of Toronto); and David I.W. Levin (University of Toronto)\n------- --------------\nSlippage-Preserving Reshaping of Human-Made 3D Content\n\n Artists often need to reshape 3D models of human-made objects by changing the relative proportions or scales of different model parts or elements wh ile preserving the look and structure of the inputs. Manually reshaping in puts to satisfy these criteria is highly time-consuming; the edit in our t ease...\n\n\nChrystiano Araújo (University of British Columbia); Nicholas Vining (University of British Columbia, NVIDIA); and Silver Burla, Manuel Ruivo de Oliveira, Enrique Rosales, and Alla Sheffer (University of Britis h Columbia)\n---------------------\nLiCROM: Linear-Subspace Continuous Red uced Order Modeling with Neural Fields\n\nLinear reduced-order modeling (R OM) simplifies complex simulations by approximating the behavior of a syst em using a simplified kinematic representation. Typically, ROM\nis trained on input simulations created with a specific spatial discretization, \nan d then serves to accelerate simulations with the...\n\n\nYue Chang (Univer sity of Toronto), Peter Yichen Chen (MIT CSAIL), Zhecheng Wang (University of Toronto), Maurizio M. Chiaramonte and Kevin Carlberg (Meta Reality Lab s Research), and Eitan Grinspun (University of Toronto)\n\nRegistration Ca tegory: Full Access\n\nSession Chair: Qixing Huang (University of Texas at Austin) END:VEVENT END:VCALENDAR