help研究问题数字制造结构设计工具利用摩擦电效应技术设计的传感器能否准确识别日常活动振动模式?UIST '22iWood: Makeable Vibration Sensor for Interactive Plywood
lightbulb现实痛点数字制造结构设计工具木制家具缺乏交互性能,不易融入智能家居环境。UIST '22iWood: Makeable Vibration Sensor for Interactive Plywood
help研究问题数字制造结构设计工具如何通过激光切割实现任意角度连接的关节结构?UIST '22Flaticulation: Laser Cutting Joints with Articulated Angles
help研究问题数字制造结构设计工具如何提高激光切割连接关节的精度与装配效率?UIST '22Flaticulation: Laser Cutting Joints with Articulated Angles
help研究问题数字制造结构设计工具设计哪种几何固定模式能减少激光切割关节的偏差与误配?UIST '22Flaticulation: Laser Cutting Joints with Articulated Angles
lightbulb现实痛点数字制造结构设计工具激光切割的关节难以支持复杂角度装配,且装配步骤繁琐。UIST '22Flaticulation: Laser Cutting Joints with Articulated Angles
help研究问题数字制造结构设计工具视觉重要性如何影响桌面通知的可见性?CHI '22Designing for Noticeability: The Impact of Visual Importance on Desktop Notifications
help研究问题数字制造结构设计工具通知的设计因素(如位置、大小和透明度)如何影响用户注意力的捕获和信息的传递?CHI '22Designing for Noticeability: The Impact of Visual Importance on Desktop Notifications
help研究问题数字制造结构设计工具不同桌面背景(包括图标、应用程序和其他视觉元素)对通知的可见性有什么影响?CHI '22Designing for Noticeability: The Impact of Visual Importance on Desktop Notifications
lightbulb现实痛点数字制造结构设计工具桌面通知难以在复杂背景中同时引起用户注意又不过度干扰。CHI '22Designing for Noticeability: The Impact of Visual Importance on Desktop Notifications
help研究问题数字制造结构设计工具如何从激光切割的二维图纸中自动重建三维模型?UIST '21AutoAssembler: Automatic Reconstruction of Laser-Cut 3D Models
help研究问题数字制造结构设计工具哪些启发式算法和优化方法能有效提高三维模型自动拼装的效率和准确性?UIST '21AutoAssembler: Automatic Reconstruction of Laser-Cut 3D Models
help研究问题数字制造结构设计工具具有对称性或重复面板的模型在自动拼装中能否更高效地处理?UIST '21AutoAssembler: Automatic Reconstruction of Laser-Cut 3D Models
lightbulb现实痛点数字制造结构设计工具非专家用户难以从二维激光切割图纸还原三维模型。UIST '21AutoAssembler: Automatic Reconstruction of Laser-Cut 3D Models
help研究问题数字制造结构设计工具通过哪些视觉语言设计元素可以提高装配步骤的直观性和效率?UIST '21Roadkill: Nesting Laser-Cut Objects for Fast Assembly
help研究问题数字制造结构设计工具如何将3D模型分解为可以独立装配的子组件,从而加快组装过程?UIST '21Roadkill: Nesting Laser-Cut Objects for Fast Assembly
lightbulb现实痛点数字制造结构设计工具激光切割后装配时间过长,成为原型制作流程的瓶颈。UIST '21Roadkill: Nesting Laser-Cut Objects for Fast Assembly
help研究问题数字制造结构设计工具在激光切割闭合盒结构的设计中,如何实时自动识别结构问题并进行加固?CHI '21FastForce: Real-Time Reinforcement of Laser-Cut Structures
help研究问题数字制造结构设计工具使用图理论的连通性分析能否替代有限元分析(FEA),实现更高效的实用型结构分析?CHI '21FastForce: Real-Time Reinforcement of Laser-Cut Structures
help研究问题数字制造结构设计工具设计工具如何自动加固结构而无需用户手动干预,以提升用户体验并减少设计失败率?CHI '21FastForce: Real-Time Reinforcement of Laser-Cut Structures
lightbulb现实痛点数字制造结构设计工具用户难以识别激光切割设计中的结构问题,导致成品易损或失败。CHI '21FastForce: Real-Time Reinforcement of Laser-Cut Structures
help研究问题数字制造结构设计工具如何通过改装现有的激光切割机实现完全自动化的电路制备和组件组装流程?CHI '21LaserFactory: An Electromechanical Assembly and Fabrication Platform Integrated with a Laser Cutter to Make Functional Devices and Robots
help研究问题数字制造结构设计工具激光焊接技术能否有效提高银电路的导电性和组件连接的稳定性?CHI '21LaserFactory: An Electromechanical Assembly and Fabrication Platform Integrated with a Laser Cutter to Make Functional Devices and Robots
help研究问题数字制造结构设计工具运动模式信号是否可以实现对激光切割机的模块化硬件控制而无需修改底层固件?CHI '21LaserFactory: An Electromechanical Assembly and Fabrication Platform Integrated with a Laser Cutter to Make Functional Devices and Robots
lightbulb现实痛点数字制造结构设计工具用户制作功能性电子产品时需要手工添加组件,费时费力。CHI '21LaserFactory: An Electromechanical Assembly and Fabrication Platform Integrated with a Laser Cutter to Make Functional Devices and Robots
help研究问题数字制造结构设计工具如何通过工具在设计过程中实时反馈材料利用情况以减少浪费?CHI '21Fabricaide: Fabrication-Aware Design for 2D Cutting Machines
help研究问题数字制造结构设计工具什么样的二维划分算法能快速而精准地避免材料中的已有孔洞?CHI '21Fabricaide: Fabrication-Aware Design for 2D Cutting Machines
help研究问题数字制造结构设计工具如何在多材料设计中同时提高材料利用率和设计效率?CHI '21Fabricaide: Fabrication-Aware Design for 2D Cutting Machines
lightbulb现实痛点数字制造结构设计工具设计师在使用二维切割机时,手动排布材料容易浪费且效率低。CHI '21Fabricaide: Fabrication-Aware Design for 2D Cutting Machines
help研究问题数字制造结构设计工具如何利用激光切割技术设计并制造三维体积形状和局部可控弹性的变材料?CHI '21Developable Metamaterials: Mass-fabricable Metamaterials by Laser-Cutting Elastic Structures
help研究问题数字制造结构设计工具基于折痕单元的可展性设计如何优化变材料的弹性分布?CHI '21Developable Metamaterials: Mass-fabricable Metamaterials by Laser-Cutting Elastic Structures
help研究问题数字制造结构设计工具激光切割生成的三维变材料在实际应用中效率和性能如何表现?CHI '21Developable Metamaterials: Mass-fabricable Metamaterials by Laser-Cutting Elastic Structures
lightbulb现实痛点数字制造结构设计工具工程变材料的制造依赖于耗时的技术,无法大规模生产。CHI '21Developable Metamaterials: Mass-fabricable Metamaterials by Laser-Cutting Elastic Structures
help研究问题数字制造结构设计工具在COVID-19疫情中,医疗制造者如何通过分布式生产解决个人防护设备的供应链中断问题?CHI '21Medical Maker Response to COVID-19: Distributed Manufacturing Infrastructure for Stop Gap Protective Equipment
help研究问题数字制造结构设计工具如何在紧急情况下结合安全性要求与社区协作建立可扩展的分布式生产模型?CHI '21Medical Maker Response to COVID-19: Distributed Manufacturing Infrastructure for Stop Gap Protective Equipment
help研究问题数字制造结构设计工具哪些方法可以优化急用医疗设备的材料设计、迭代和社区协作过程?CHI '21Medical Maker Response to COVID-19: Distributed Manufacturing Infrastructure for Stop Gap Protective Equipment
lightbulb现实痛点数字制造结构设计工具疫情中个人防护设备短缺,医疗系统难以正常运转。CHI '21Medical Maker Response to COVID-19: Distributed Manufacturing Infrastructure for Stop Gap Protective Equipment
help研究问题数字制造结构设计工具在线游戏社区中,玩家如何理解和使用举报机制以应对有害行为?CHI '21Flag and Flaggability in Automated Moderation: The Case of Reporting Toxic Behavior in an Online Game Community
help研究问题数字制造结构设计工具“Flaggability”(可举报性)如何影响玩家对有害行为的定义和举报行为?CHI '21Flag and Flaggability in Automated Moderation: The Case of Reporting Toxic Behavior in an Online Game Community
help研究问题数字制造结构设计工具玩家对举报机制的不信任感来源于哪些具体因素?CHI '21Flag and Flaggability in Automated Moderation: The Case of Reporting Toxic Behavior in an Online Game Community
lightbulb现实痛点数字制造结构设计工具在线游戏玩家对举报机制的结果缺乏信任和透明度。CHI '21Flag and Flaggability in Automated Moderation: The Case of Reporting Toxic Behavior in an Online Game Community