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:20241204T170500 DTEND;TZID=Asia/Tokyo:20241204T171600 UID:siggraphasia_SIGGRAPH Asia 2024_sess121_papers_851@linklings.com SUMMARY:Motion-Driven Neural Optimizer for Prophylactic Braces Made by Dis tributed Microstructures DESCRIPTION:Technical Papers\n\nXingjian Han (Boston University, Universit y of Manchester); Yu Jiang (Dalian University of Technology, University of Manchester); Weiming Wang (University of Manchester); Guoxin Fang (Chines e University of Hong Kong); Simeon Gill (University of Manchester); Zhiqia ng Zhang (University of Leeds); Shengfa Wang (Dalian University of Technol ogy); Jun Saito (Adobe Research); Deepak Kumar (Boston University); Zhongx uan Luo (Dalian University of Technology); Emily Whiting (Boston Universit y); and Charlie Wang (University of Manchester)\n\nJoint injuries, and the ir long-term consequences, present a substantial global health burden. Wea rable prophylactic braces are an attractive potential solution to reduce t he incidence of joint injuries by limiting joint movements that are relate d to injury risk. Given human motion and ground reaction forces, we presen t a computational framework that enables the design of personalized braces by optimizing the distribution of microstructures and elasticity. As vari ed brace designs yield different reaction forces that influence kinematics and kinetics analysis outcomes, the optimization process is formulated as a differentiable end-to-end pipeline in which the design domain of micros tructure distribution is parameterized onto a neural network. The optimize d distribution of microstructures is obtained via a self-learning process to determine the network coefficients according to a carefully designed se t of losses and the integrated biomechanical and physical analyses. Since knees and ankles are the most commonly injured joints, we demonstrate the effectiveness of our pipeline by designing, fabricating, and testing proph ylactic braces for the knee and ankle to prevent potentially harmful joint movements.\n\nRegistration Category: Full Access, Full Access Supporter\n \nLanguage Format: English Language\n\nSession Chair: Nobuyuki Umetani (Un iversity of Tokyo) URL:https://asia.siggraph.org/2024/program/?id=papers_851&sess=sess121 END:VEVENT END:VCALENDAR