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 B5 (1)\, B Block\, Level 5 DTSTART;TZID=Asia/Tokyo:20241205T104500 DTEND;TZID=Asia/Tokyo:20241205T115500 UID:siggraphasia_SIGGRAPH Asia 2024_sess127@linklings.com SUMMARY:3D Printing, Manufacturing DESCRIPTION:Technical Papers\n\nEach Paper gives a 10 minute presentation. \n\nDifferentiable Modeling of Material Spreading in Inkjet Printing for A ppearance Prediction\n\nInkjet 3D printers produce solid shapes using very small voxels made of polymeric materials. While state-of-the-art methods for predicting the appearance of inkjet-printed objects assume a perfect g rid, the printed patterns have an irregular material distribution due to c omplex spreading behavior. T...\n\n\nEmiliano Luci (Max Planck Institute f or Informatics), Fabio Pellacini (Università degli Studi di Modena e Reggi o Emilia), and Vahid Babaei (Max Planck Institute for Informatics)\n------ ---------------\nComputational Design of a Kit of Parts for Bending Active Structures\n\nBending-active structures are composed of elastic elements that deform to achieve a desired target shape. To support effective design , inverse algorithms have been proposed that optimize the geometry of each element specifically for each design. This makes it difficult to reuse el ements across desig...\n\n\nQuentin Becker, Uday Kusupati, Seiichi Suzuki, and Mark Pauly (EPFL)\n---------------------\nInverse Rendering for Tomog raphic Volumetric Additive Manufacturing\n\nTomographic Volumetric Additiv e Manufacturing (TVAM) is an emerging 3D printing technology that can crea te complex objects in under a minute. The key idea is to project intense l ight patterns onto a rotating vial of photo-sensitive resin, causing polym erization where the cumulative dose\nof these pat...\n\n\nBaptiste Nicolet , Felix Wechsler, Jorge Madrid-Wolff, Christophe Moser, and Wenzel Jakob ( EPFL)\n---------------------\nLearning Based Toolpath Planner on Diverse G raphs for 3D Printing\n\nThis paper presents a learning based planner for computing optimized 3D printing toolpaths on prescribed graphs, the challe nges of which include the varying graph structures on different models and the large scale of nodes & edges on a graph. We adopt an on-the-fly strat egy to tackle these challenge...\n\n\nYuming Huang, Yuhu Guo, and Renbo Su (University of Manchester); Xingjian Han (Boston University); Junhao Ding (Chinese University of Hong Kong); Tianyu Zhang, Tao Liu, and Weiming Wan g (University of Manchester); Guoxin Fang and Xu Song (Chinese University of Hong Kong); Emily Whiting (Boston University); and Charlie Wang (Univer sity of Manchester)\n---------------------\nA Flexible Mold for Facade Pan el Fabrication\n\nArchitectural surface panelling often requires fabricati ng molds for panels, a process that can be cost-inefficient and material-w asteful when using traditional methods such as CNC milling. In this paper, we introduce a novel solution to generating molds for efficiently fabrica ting architectural pan...\n\n\nFlorian Rist (KAUST, TU Wien); Zhecheng Wan g (UofT); Davide Pellis (ISTI-CNR); Marco Palma (TU Wien); Daoming Liu (KA UST); Eitan Grinspun (UofT); and Dominik L. Michels (KAUST)\n\nRegistratio n Category: Full Access, Full Access Supporter\n\nLanguage Format: English Language\n\nSession Chair: Lin Lu (Shandong University) END:VEVENT END:VCALENDAR