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 2A DTSTART;TZID=America/Denver:20240801T104500 DTEND;TZID=America/Denver:20240801T121500 UID:siggraph_SIGGRAPH 2024_sess138@linklings.com SUMMARY:Geometry: Editing and Deformation DESCRIPTION:Semantic Shape Editing With Parametric Implicit Templates\n\nW e introduce a new way to edit meshes using interpretable parameters by lev eraging a parametric implicit representation as the underlying template. F or a generic parametric implicit, we fit the template to the input mesh an d realize parametric edits on the mesh using our mesh deformation algorith m t...\n\n\nUday Kusupati (EPFL) and Mathieu Gaillard, Jean-Marc Thiery, a nd Adrien Kaiser (Adobe Research)\n---------------------\nGeometry: Editin g and Deformation - Interactive Discussion\n\nAfter the summary presentati ons, attendees will participate in an interactive discussion. Distributed around the room will be a series of poster boards for authors to gather ar ound with the audience. Authors are invited to bring any material related to their paper that could instigate further conver...\n\n----------------- ----\nBiharmonic Coordinates and Their Derivatives for Triangular 3D Cages \n\nWe provide closed-form expressions for biharmonic coordinates for tria ngular cages in 3D, as well as for their gradients and Hessians. We demons trate new cage-based deformations, a novel subspace for variational cage-b ased modeling, and we establish closed-form expressions for Somigliana coo rdinates...\n\n\nJean-Marc THIERY and Elie Michel (Adobe Research) and Jio ng Chen (INRIA, Saclay)\n---------------------\nA Unified Differentiable B oolean Operator With Fuzzy Logic\n\nWe present a differentiable boolean op erator for implicit solid shape modeling. Drawing inspiration from fuzzy l ogic, our boolean operator outputs a continuous function and is differenti able with respect to operator types. This enables optimization of the prim itives and the boolean operations employ...\n\n\nHsueh-Ti Derek Liu (Roblo x, University of British Columbia); Maneesh Agrawala (Stanford University, Roblox); Cem Yuksel (University of Utah, Roblox); Tim Omernick, Vinith Mi sra, and Stefano Corazza (Roblox); Morgan McGuire (Roblox, McGill Universi ty); and Victor Zordan (Roblox)\n---------------------\nCNS-Edit: 3D Shape Editing via Coupled Neural Shape Optimization\n\nThis paper introduces a new approach based on a coupled representation and a neural volume optimiz ation to perform 3D shape editing in latent space. Besides, we provide a s et of operators, i.e., copy, delete, resize, and drag, for the users to ac hieve semantic-aware and high-fidelity shape editing.\n\n\nJingyu Hu, Ka-H ei Hui, and Zhengzhe Liu (The Chinese University of Hong Kong); Hao Zhang (Simon Fraser University, Amazon); and Chi-Wing Fu (The Chinese University of Hong Kong)\n---------------------\nRepulsive Shells\n\nShape spaces ar e a powerful tool for nonlinear interpolation, extrapolation, and averagin g of geometric data, but previous shape spaces permit geometry to self-int ersect in nonphysical ways. We introduce a shape space where geometry natu rally avoids intersection, as well as an adaptive collision pot...\n\n\nJo sua Sassen (University of Bonn, École Normale Supérieure Paris-Saclay); He nrik Schumacher (University of Georgia); Martin Rumpf (University of Bonn) ; and Keenan Crane (Carnegie Mellon University)\n---------------------\nCu rvature-driven Conformal Deformations\n\nWe introduce a novel approach for computing conformal deformations in Euclidean space while minimizing curv ature-based energies. These energies serve as fundamental tools in geometr y processing, essential for tasks such as surface fairing, deformation, ap proximations using cone metric surfaces. We e...\n\n\nEtienne Corman (CNRS , Inria, LORIA)\n\nInterest Area: Research & Education\n\nKeyword: Geometr y, Modeling\n\nRegistration Category: Full Conference, Full Conference Sup porter, Virtual Access, Exhibitor Full Conference, Thursday\n\nSession Cha ir: Justin Solomon (Massachusetts Institute of Technology (MIT)) END:VEVENT END:VCALENDAR