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TZID:Asia/Tokyo
X-LIC-LOCATION:Asia/Tokyo
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DTSTART:18871231T000000
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DTSTAMP:20250110T023312Z
LOCATION:Hall B5 (1)\, B Block\, Level 5
DTSTART;TZID=Asia/Tokyo:20241204T163000
DTEND;TZID=Asia/Tokyo:20241204T174000
UID:siggraphasia_SIGGRAPH Asia 2024_sess121@linklings.com
SUMMARY:Computational Design
DESCRIPTION:Technical Papers\n\nEach Paper gives a 10 minute presentation.
 \n\nmpcMech: Multi-Point Conjugation Mechanisms\n\nA mechanism is an assem
 bly of moving parts interconnected by joints to transfer an input motion t
 o a desired output motion. Traditionally, to generate a complex motion, me
 chanisms are modeled by selecting and combining a number of mechanical par
 ts with simple shapes such as links, gears, and cams. C...\n\n\nKe Chen (U
 niversity of Science and Technology of China), Siqi Li and Peng Song (Sing
 apore University of Technology and Design (SUTD)), Jianmin Zheng (Nanyang 
 Technological University (NTU)), and Ligang Liu (University of Science and
  Technology of China)\n---------------------\nMotion-Driven Neural Optimiz
 er for Prophylactic Braces Made by Distributed Microstructures\n\nJoint in
 juries, and their long-term consequences, present a substantial global hea
 lth burden. Wearable prophylactic braces are an attractive potential solut
 ion to reduce the incidence of joint injuries by limiting joint movements 
 that are related to injury risk. Given human motion and ground reactio...\
 n\n\nXingjian Han (Boston University, University of Manchester); Yu Jiang 
 (Dalian University of Technology, University of Manchester); Weiming Wang 
 (University of Manchester); Guoxin Fang (Chinese University of Hong Kong);
  Simeon Gill (University of Manchester); Zhiqiang Zhang (University of Lee
 ds); Shengfa Wang (Dalian University of Technology); Jun Saito (Adobe Rese
 arch); Deepak Kumar (Boston University); Zhongxuan Luo (Dalian University 
 of Technology); Emily Whiting (Boston University); and Charlie Wang (Unive
 rsity of Manchester)\n---------------------\nTune-It: Optimizing Wire Reco
 nfiguration for Sculpture Manufacturing\n\nWire sculptures are important i
 n both industrial applications and daily life. We introduce a novel fabric
 ation strategy for wire sculptures with complex geometries by tuning the t
 arget shape to a collision-free shape for the wire-bending machine and the
 n bending it back to the target by a human. The...\n\n\nQibing Wu, Zhihao 
 Zhang, Xin Yan, and Fanchao Zhong (Shandong University); Yueze Zhu (Univer
 sity College London (UCL)); and Xurong Lu, Runze Xue, Rui Li, Changhe Tu, 
 and Haisen Zhao (Shandong University)\n---------------------\nFragmentDiff
 : A Diffusion Model for Fractured Object Assembly\n\nFractured object reas
 sembly is a challenging problem in computer vision and graphics with appli
 cations in industrial manufacturing and archaeology. Traditional methods b
 ased on shape descriptors and geometric registration often struggle with a
 mbiguous features, resulting in lower accuracy. To addres...\n\n\nQun-Ce X
 u and Hao-Xiang Chen (BNRist, Department of Computer Science and Technolog
 y, Tsinghua University); Jiacheng Hua (Department of Computer Science and 
 Technology, Tsinghua University); Xiaohua Zhan (Department of Foreign Lang
 uages and Literatures, Tsinghua University); Yong-Liang Yang (Department o
 f Computer Science, University of Bath); and Tai-Jiang Mu (BNRist, Departm
 ent of Computer Science and Technology, Tsinghua University)\n------------
 ---------\nEnd-to-end Optimization of Fluidic Lenses\n\nPrototyping and sm
 all volume production of custom imaging-grade lenses is difficult and expe
 nsive, especially for more complex aspherical shapes. Fluidic shaping has 
 recently been proposed as a potential solution: It makes use of the atomic
  level smoothness of interfaces between liquids, where the s...\n\n\nMulun
  Na, Hector A. Jimenez Romero, Xinge Yang, Jonathan Klein, Dominik L. Mich
 els, and Wolfgang Heidrich (KAUST)\n---------------------\nComputational D
 esign of Dense Servers for Immersion Cooling\n\nThe growing demands for co
 mputational power in cloud computing have led to a significant increase in
  the deployment of high-performance servers. The growing power consumption
  of servers and the heat they produce is on track to outpace the capacity 
 of conventional air cooling systems, necessitating m...\n\n\nMilin Kodnong
 bua and Zachary Englhardt (University of Washington); Ricardo Bianchini an
 d Rodrigo Fonseca (Microsoft); Alvin Lebeck (Duke University); Daniel S. B
 erger (Microsoft, University of Washington); Vikram Iyer (University of Wa
 shington); Fiodar Kazhamiaka (Microsoft); and Adriana Schulz (University o
 f Washington)\n\nRegistration Category: Full Access, Full Access Supporter
 \n\nLanguage Format: English Language\n\nSession Chair: Nobuyuki Umetani (
 University of Tokyo)
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