lightbulb现实痛点输入性能、误触控制与交互效率现有AI讲故事工具难以支持多模态输入,交互延迟高,形式复杂。CHI '25Toyteller: AI-powered Visual Storytelling Through Toy-Playing with Character Symbols
help研究问题输入性能、误触控制与交互效率如何在无线耳机上实现不同手指的识别以支持更复杂的输入?CHI '25BudsID: Mobile-Ready and Expressive Finger Identification Input for Earbuds
help研究问题输入性能、误触控制与交互效率磁感应技术是否能在动态场景(如行走时)下实现高效且准确的多手指交互?CHI '25BudsID: Mobile-Ready and Expressive Finger Identification Input for Earbuds
help研究问题输入性能、误触控制与交互效率轻量级机器学习模型在资源受限的无线耳机设备上是否能满足实时交互需求?CHI '25BudsID: Mobile-Ready and Expressive Finger Identification Input for Earbuds
lightbulb现实痛点输入性能、误触控制与交互效率无线耳机的输入方式受限,用户难以实现复杂交互,尤其是动态场景中。CHI '25BudsID: Mobile-Ready and Expressive Finger Identification Input for Earbuds
help研究问题输入性能、误触控制与交互效率如何优化传统动作指向技术以提高高频任务的交互效率?CHI '25Understanding and Improving the Performance of Action Pointing
help研究问题输入性能、误触控制与交互效率消除修饰键能否减少重复任务中的用户疲劳并提高操作速度?CHI '25Understanding and Improving the Performance of Action Pointing
help研究问题输入性能、误触控制与交互效率结合动作选择与触发的键盘交互设计在实际任务中表现如何?CHI '25Understanding and Improving the Performance of Action Pointing
lightbulb现实痛点输入性能、误触控制与交互效率用户在高频重复任务中因复杂的操作步骤感到效率低下和疲劳。CHI '25Understanding and Improving the Performance of Action Pointing
help研究问题输入性能、误触控制与交互效率如何利用MagSafe技术实现低能耗且高兼容性的设备背面交互界面?CHI '25MagPie: Extending a Smartphone’s Interaction Space via a Customizable Magnetic Back-of-Device Input Accessory
help研究问题输入性能、误触控制与交互效率MagPie系统能否提供多样化和模块化的输入方式,从而优化用户体验?CHI '25MagPie: Extending a Smartphone’s Interaction Space via a Customizable Magnetic Back-of-Device Input Accessory
help研究问题输入性能、误触控制与交互效率在不同环境中,MagPie的输入识别精度和交互性能如何表现?CHI '25MagPie: Extending a Smartphone’s Interaction Space via a Customizable Magnetic Back-of-Device Input Accessory
lightbulb现实痛点输入性能、误触控制与交互效率手机屏幕空间小,操作复杂,用户体验受限。CHI '25MagPie: Extending a Smartphone’s Interaction Space via a Customizable Magnetic Back-of-Device Input Accessory
help研究问题输入性能、误触控制与交互效率如何通过自动补全技术提升手写数学公式的输入效率和准确性?IUI '24MathAssist: A Handwritten Mathematical Expression Autocomplete Technique
help研究问题输入性能、误触控制与交互效率适合数学公式的树结构表述方法应该如何设计以反映公式的层级关系?IUI '24MathAssist: A Handwritten Mathematical Expression Autocomplete Technique
help研究问题输入性能、误触控制与交互效率如何基于用户输入的上下文信息推荐最适合的数学公式补全?IUI '24MathAssist: A Handwritten Mathematical Expression Autocomplete Technique
lightbulb现实痛点输入性能、误触控制与交互效率用户手写复杂公式时效率低且易出错。IUI '24MathAssist: A Handwritten Mathematical Expression Autocomplete Technique
help研究问题输入性能、误触控制与交互效率连续时间性指点(CTP)任务的用户表现机制是什么,与传统时间性指点任务有哪些本质不同?CHI '24User Performance in Consecutive Temporal Pointing: An Exploratory Study
help研究问题输入性能、误触控制与交互效率哪些变量(如时间间隔、输入方法)显著影响用户在连续时间性指点任务中的表现?CHI '24User Performance in Consecutive Temporal Pointing: An Exploratory Study
help研究问题输入性能、误触控制与交互效率如何基于用户的认知特点来设计优化CTP任务的交互体验?CHI '24User Performance in Consecutive Temporal Pointing: An Exploratory Study
lightbulb现实痛点输入性能、误触控制与交互效率用户在双击等CTP任务中效率和准确性不佳,影响交互体验。CHI '24User Performance in Consecutive Temporal Pointing: An Exploratory Study
help研究问题输入性能、误触控制与交互效率吞吐量(TP)指标能否适用于评估操控(steering)任务的用户性能?CHI '24Better Definition and Calculation of Throughput and Effective Parameters for Steering to Account for Subjective Speed-accuracy Tradeoffs
help研究问题输入性能、误触控制与交互效率基于有效参数(如有效宽度We和有效振幅Ae)的TP计算方法能在多任务条件下平滑主观速度-精度权衡的影响吗?CHI '24Better Definition and Calculation of Throughput and Effective Parameters for Steering to Account for Subjective Speed-accuracy Tradeoffs
help研究问题输入性能、误触控制与交互效率不同路径形状(如直线、圆形、正弦路径)如何影响TP及其稳定性?CHI '24Better Definition and Calculation of Throughput and Effective Parameters for Steering to Account for Subjective Speed-accuracy Tradeoffs
lightbulb现实痛点输入性能、误触控制与交互效率用户性能指标在复杂路径任务中存在不公平和不稳定的问题。CHI '24Better Definition and Calculation of Throughput and Effective Parameters for Steering to Account for Subjective Speed-accuracy Tradeoffs
help研究问题输入性能、误触控制与交互效率如何利用Meta-Bayesian优化实现快速在线参数优化以提升腕戴交互设备的使用体验?CHI '24A Meta-Bayesian Approach for Rapid Online Parametric Optimization for Wrist-based Interactions
help研究问题输入性能、误触控制与交互效率动态多目标权重控制和模型权重衰减机制如何影响腕戴设备的优化效率?CHI '24A Meta-Bayesian Approach for Rapid Online Parametric Optimization for Wrist-based Interactions
help研究问题输入性能、误触控制与交互效率TAF+算法在不同腕戴交互场景中的性能提升有多显著?CHI '24A Meta-Bayesian Approach for Rapid Online Parametric Optimization for Wrist-based Interactions
lightbulb现实痛点输入性能、误触控制与交互效率腕戴设备的参数难以快速个性化调整,影响用户体验。CHI '24A Meta-Bayesian Approach for Rapid Online Parametric Optimization for Wrist-based Interactions
help研究问题输入性能、误触控制与交互效率如何使用商用耳机的超声波传感技术实现大词汇量的无声语音输入?CHI '24ReHEarSSE: Recognizing Hidden-in-the-Ear Silently Spelled Expressions
help研究问题输入性能、误触控制与交互效率与传统的频域特征相比,自回归(AR)特征是否能更精确地捕捉耳道动态变化?CHI '24ReHEarSSE: Recognizing Hidden-in-the-Ear Silently Spelled Expressions
help研究问题输入性能、误触控制与交互效率无声语音输入系统如何支持未见词汇的准确推断?CHI '24ReHEarSSE: Recognizing Hidden-in-the-Ear Silently Spelled Expressions
lightbulb现实痛点输入性能、误触控制与交互效率不会说话或无法用手输入的人难以私密、高效地输入文字。CHI '24ReHEarSSE: Recognizing Hidden-in-the-Ear Silently Spelled Expressions
help研究问题输入性能、误触控制与交互效率用户自选愉悦气味能否提升文本创作和抄录任务的表现?CHI '24Investigating the Effects of Self-selected Pleasant Scents on Text Composition and Transcription Performance
help研究问题输入性能、误触控制与交互效率在文本输入任务中,气味的存在对任务绩效(输入速度、错误率、可读性)有什么影响?CHI '24Investigating the Effects of Self-selected Pleasant Scents on Text Composition and Transcription Performance
help研究问题输入性能、误触控制与交互效率哪些气味特性(例如强度、持续时间、扩散均匀性)最能影响用户体验和任务效率?CHI '24Investigating the Effects of Self-selected Pleasant Scents on Text Composition and Transcription Performance
lightbulb现实痛点输入性能、误触控制与交互效率长时间使用电脑输入文本会导致压力和表现下降。CHI '24Investigating the Effects of Self-selected Pleasant Scents on Text Composition and Transcription Performance
help研究问题输入性能、误触控制与交互效率现有的乐谱软件如何限制作曲家在创作过程中的灵活性?CHI '24Challenges of Music Score Writing and the Potentials of Interactive Surfaces
help研究问题输入性能、误触控制与交互效率交互式表面(支持笔和多点触控输入)如何解决乐谱软件中灵活性与结构性之间的矛盾?CHI '24Challenges of Music Score Writing and the Potentials of Interactive Surfaces
help研究问题输入性能、误触控制与交互效率哪些设计方向可以更好地支持作曲家的迭代创作过程?CHI '24Challenges of Music Score Writing and the Potentials of Interactive Surfaces
lightbulb现实痛点输入性能、误触控制与交互效率作曲家在使用传统乐谱软件进行创作时缺乏灵活性。CHI '24Challenges of Music Score Writing and the Potentials of Interactive Surfaces
help研究问题输入性能、误触控制与交互效率电竞团队中的社会化学习过程是如何通过协同调节学习理论描述的?CHI '24``Backseat Gaming" A Study of Co-Regulated Learning within a Collegiate Male Esports Community
help研究问题输入性能、误触控制与交互效率团队成员如何通过输入交互(如反馈和指导)来支持彼此的技能提升?CHI '24``Backseat Gaming" A Study of Co-Regulated Learning within a Collegiate Male Esports Community
help研究问题输入性能、误触控制与交互效率电竞团队学习在游戏的不同阶段(赛前、赛中、赛后)如何表现出不同的优先级和互动形式?CHI '24``Backseat Gaming" A Study of Co-Regulated Learning within a Collegiate Male Esports Community
lightbulb现实痛点输入性能、误触控制与交互效率初学者缺乏团队支持,经常因学习挑战而退出电竞。CHI '24``Backseat Gaming" A Study of Co-Regulated Learning within a Collegiate Male Esports Community
help研究问题输入性能、误触控制与交互效率如何通过自然动作映射技术,利用内置RGB摄像头改进传统PC游戏的操控方式?CHI '24CamTroller: An Auxiliary Tool for Controlling Your Avatar in PC Games Using Natural Motion Mapping
help研究问题输入性能、误触控制与交互效率由CamTroller采集的玩家头部和手部运动数据如何可靠地映射到虚拟角色的游戏动作?CHI '24CamTroller: An Auxiliary Tool for Controlling Your Avatar in PC Games Using Natural Motion Mapping
help研究问题输入性能、误触控制与交互效率与传统键鼠操作相比,CamTroller能否有效缓解游戏玩家的学习曲线和身体疲劳问题?CHI '24CamTroller: An Auxiliary Tool for Controlling Your Avatar in PC Games Using Natural Motion Mapping
lightbulb现实痛点输入性能、误触控制与交互效率复杂游戏中,使用键盘和鼠标操作容易导致学习曲线高且身体疲劳。CHI '24CamTroller: An Auxiliary Tool for Controlling Your Avatar in PC Games Using Natural Motion Mapping
help研究问题输入性能、误触控制与交互效率语音和书面语言在内容生成和记忆反馈方面有何理论差异?CUI '23Gist and Verbatim: Understanding Speech to Inform New Interfaces for Verbal Text Composition