BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Asia/Tokyo X-LIC-LOCATION:Asia/Tokyo BEGIN:STANDARD TZOFFSETFROM:+0900 TZOFFSETTO:+0900 TZNAME:JST DTSTART:18871231T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20250110T023312Z LOCATION:Hall B7 (1)\, B Block\, Level 7 DTSTART;TZID=Asia/Tokyo:20241204T171600 DTEND;TZID=Asia/Tokyo:20241204T172800 UID:siggraphasia_SIGGRAPH Asia 2024_sess123_papers_239@linklings.com SUMMARY:XPBI: Position-Based Dynamics with Smoothing Kernels Handles Conti nuum Inelasticity DESCRIPTION:Technical Papers\n\nChang Yu and Xuan Li (University of Califo rnia Los Angeles), Lei Lan and Yin Yang (University of Utah), and Chenfanf u Jiang (University of California Los Angeles)\n\nPBD and its extension, X PBD, have been predominantly applied to compliant constrained elastodynami cs, with their potential in finite strain (visco-) elastoplasticity remain ing underexplored. XPBD is often perceived to stand in contrast to other m eshless methods, such as the MPM. MPM is based on discretizing the weak fo rm of governing partial differential equations within a continuum domain, coupled with a hybrid Lagrangian-Eulerian method for tracking deformation gradients. In contrast, XPBD formulates specific constraints, whether hard or compliant, to positional degrees of freedom. We revisit this perceptio n by investigating the potential of XPBD in handling inelastic materials t hat are described with classical continuum mechanics-based yield surfaces and elastoplastic flow rules. Our inspiration is that a robust estimation of the velocity gradient is a sufficiently useful key to effectively track ing deformation gradients in XPBD simulations. By further incorporating im plicit inelastic constitutive relationships, we introduce a plasticity in- the-loop updated Lagrangian augmentation to XPBD. This enhancement enables the simulation of elastoplastic, viscoplastic, and granular substances fo llowing their standard constitutive laws. We demonstrate the effectiveness of our method through high-resolution and real-time simulations of divers e materials such as snow, sand, and plasticine, and its integration with s tandard XPBD simulations of cloth and water.\n\nRegistration Category: Ful l Access, Full Access Supporter\n\nLanguage Format: English Language\n\nSe ssion Chair: Huamin Wang (Style3D Research) URL:https://asia.siggraph.org/2024/program/?id=papers_239&sess=sess123 END:VEVENT END:VCALENDAR