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TZID:Asia/Seoul
X-LIC-LOCATION:Asia/Seoul
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TZOFFSETTO:+0900
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DTSTART:18871231T000000
DTSTART:19881009T020000
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BEGIN:VEVENT
DTSTAMP:20230103T035347Z
LOCATION:Room 325-AB\, Level 3\, West Wing
DTSTART;TZID=Asia/Seoul:20221207T170000
DTEND;TZID=Asia/Seoul:20221207T183000
UID:siggraphasia_SIGGRAPH Asia 2022_sess179@linklings.com
SUMMARY:Computer-Aided Design
DESCRIPTION:Technical Communications, Technical Papers, TOG\n\nThe present
 ations will be followed by a 30-min Interactive Discussion Session at Room
  325-CD.\n\nThe Technical Papers program is the premier international foru
 m for disseminating new scholarly work in computer graphics and interactiv
 e techniques. Technical Papers are published as a special issue of ACM Tra
 nsactions on Graphics. In addition to papers selected by the SIGGRAPH Asia
  2022 Technical Papers Jury, the conference presents papers that have been
  published in ACM Transactions on Graphics during the past year. Accepted 
 papers adhere to the highest scientific standards.\n\nThe Technical Commun
 ications program is a premier forum for presenting the latest developments
  and research still in progress. Leading international experts in academia
  and industry present work that showcase actual implementations of researc
 h ideas, works at the crossroads of computer graphics with computer vision
 , machine learning, HCI, VR, CAD, visualization, and many others\n\nImplic
 it Conversion of Manifold B-Rep Solids by Neural Halfspace Representation\
 n\nGuo, Liu, Pan, Guo\n\nWe present a novel implicit representation --- ne
 ural halfspace representation (NH-Rep), to convert manifold B-Rep solids t
 o implicit representations. NH-Rep is a Boolean tree built on a set of imp
 licit functions represented by the neural network, and the composite Boole
 an function is capable of rep...\n\n---------------------\nPlanar panels a
 nd planar supporting beams in architectural structures\n\nWang, Jiang, Tel
 lier, Wallner, Pottmann\n\nWe investigate geometric properties and modelin
 g capabilities of quad meshes with planar faces and planar parameter lines
 . These properties are beneficial from the structural viewpoint. We enable
  geometric design with planarity side conditions by working in the space o
 f planes and with the appropria...\n\n---------------------\n$S^3$-Slicer:
  A General Slicing Framework for Multi-Axis 3D Printing\n\nZhang, Fang, Hu
 ang, Dutta, Lefebvre...\n\nMulti-axis motion introduces more degrees of fr
 eedom into the process of 3D printing to enable different objectives of fa
 brication by accumulating materials layers upon curved layers. An existing
  challenge is how to effectively generate the curved layers satisfying mul
 tiple objectives simultaneously...\n\n---------------------\nCAD2Sketch: G
 enerating Concept Sketches from CAD Sequences\n\nHähnlein, Li, Mitra, Bous
 seau\n\nConcept sketches are ubiquitous in industrial design, as they allo
 w designers to quickly depict imaginary 3D objects.To construct their sket
 ches with accurate perspective, designers rely on longstanding drawing tec
 hniques, including the use of auxiliary construction lines to identify mid
 points of pe...\n\n---------------------\nZero-Shot Multi-Modal Artist-Con
 trolled Retrieval and Exploration of 3D Object Sets\n\nSchlachter, Ahlbran
 d, Wang, Ortenzi, Perlin\n\nWe address the problem of 3D asset retrieval f
 rom multi-modal inputs, including 2D sketches, images, and text. We addres
 s the lack of artistic control that affects common data-driven approaches.
 \n\n---------------------\nAssemble Them All: Physics-Based Planning for G
 eneralizable Assembly by Disassembly\n\nTian, Xu, Li, Luo, Sueda...\n\nAss
 embly planning is the core of automating product assembly, maintenance, an
 d recycling for modern industrial manufacturing. Despite its importance an
 d long history of research, planning for mechanical assemblies when given 
 the final assembled state remains a challenging problem. This is due to th
 e...\n\n---------------------\nReconstructing editable prismatic CAD from 
 rounded voxel models\n\nLambourne, Willis, Jayaraman, Zhang, Sanghi...\n\n
 Reverse Engineering a CAD shape from other representations is an important
  geometric processing step for many downstream applications. In this work,
  we introduce a novel neural network architecture to solve this challengin
 g task and approximate a smoothed signed distance function with an editabl
 e, c...\n\n\nRegistration Category: FULL ACCESS, ON-DEMAND ACCESS\n\nLangu
 age: ENGLISH\n\nFormat: IN-PERSON, ON-DEMAND
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