help研究问题输入性能、误触控制与交互效率用户对自己语音输入的即时回忆精确度如何受文本长度和内容类型影响?CUI '23Gist and Verbatim: Understanding Speech to Inform New Interfaces for Verbal Text Composition
help研究问题输入性能、误触控制与交互效率基于语义摘要(语音主要含义)的交互设计能否提高语音文本编辑效率?CUI '23Gist and Verbatim: Understanding Speech to Inform New Interfaces for Verbal Text Composition
lightbulb现实痛点输入性能、误触控制与交互效率用户编辑语音转文本内容时需耗费大量视觉注意力和精力。CUI '23Gist and Verbatim: Understanding Speech to Inform New Interfaces for Verbal Text Composition
help研究问题输入性能、误触控制与交互效率如何直接优化终点变异参数以提高指向错误率的预测精度?CHI '23Tuning Endpoint-variability Parameters by Observed Error Rates to Obtain Better Prediction Accuracy of Pointing Misses
help研究问题输入性能、误触控制与交互效率错误率优化方法(ER-based method)相比传统的标准差方法(SD-based method)在预测性能上有哪些优势?CHI '23Tuning Endpoint-variability Parameters by Observed Error Rates to Obtain Better Prediction Accuracy of Pointing Misses
help研究问题输入性能、误触控制与交互效率通过超参数优化(HPO)能否提高不同实验条件下的错误率预测稳定性?CHI '23Tuning Endpoint-variability Parameters by Observed Error Rates to Obtain Better Prediction Accuracy of Pointing Misses
lightbulb现实痛点输入性能、误触控制与交互效率UI设计师难以精准预测按钮大小和布局对用户操作错误率的影响。CHI '23Tuning Endpoint-variability Parameters by Observed Error Rates to Obtain Better Prediction Accuracy of Pointing Misses
help研究问题输入性能、误触控制与交互效率如何设计一种适合动作受限用户的智能手表文本输入方法?CHI '23Crownboard: A One-Finger Crown-Based Smartwatch Keyboard for Users with Limited Dexterity
help研究问题输入性能、误触控制与交互效率基于智能手表表冠的旋转和按压操作能否提高文本输入效率和准确性?CHI '23Crownboard: A One-Finger Crown-Based Smartwatch Keyboard for Users with Limited Dexterity
help研究问题输入性能、误触控制与交互效率如何优化键盘布局以减少动作受限用户的输入冲突和模糊性?CHI '23Crownboard: A One-Finger Crown-Based Smartwatch Keyboard for Users with Limited Dexterity
lightbulb现实痛点输入性能、误触控制与交互效率动作受限用户难以使用现有智能手表的文本输入功能。CHI '23Crownboard: A One-Finger Crown-Based Smartwatch Keyboard for Users with Limited Dexterity
help研究问题输入性能、误触控制与交互效率用户如何感知和偏好手指上的动觉通知?CHI '23Fingerhints: Understanding Users' Perceptions of and Preferences for On-Finger Kinesthetic Notifications
help研究问题输入性能、误触控制与交互效率Fingerhints通知系统在用户体验和社交可接受性方面表现如何?CHI '23Fingerhints: Understanding Users' Perceptions of and Preferences for On-Finger Kinesthetic Notifications
help研究问题输入性能、误触控制与交互效率不同上下文和活动是否会影响手指动觉通知的舒适性和用户接受度?CHI '23Fingerhints: Understanding Users' Perceptions of and Preferences for On-Finger Kinesthetic Notifications
lightbulb现实痛点输入性能、误触控制与交互效率用户在现有通知方式中常感到便利与中断之间的矛盾。CHI '23Fingerhints: Understanding Users' Perceptions of and Preferences for On-Finger Kinesthetic Notifications
help研究问题输入性能、误触控制与交互效率如何通过PVP(位置变异轮廓)替代Fitts定律来评估输入设备的性能?CHI '23Positional Variance Profiles (PVPs): A New Take on the Speed-Accuracy
help研究问题输入性能、误触控制与交互效率PVP方法如何利用完整轨迹信息建立更精确的性能评价模型?CHI '23Positional Variance Profiles (PVPs): A New Take on the Speed-Accuracy
help研究问题输入性能、误触控制与交互效率PVP是否能够在保持传统兼容性的同时提高实验效率并减少误差?CHI '23Positional Variance Profiles (PVPs): A New Take on the Speed-Accuracy
lightbulb现实痛点输入性能、误触控制与交互效率设计师缺乏科学工具来全面评估输入设备性能差异。CHI '23Positional Variance Profiles (PVPs): A New Take on the Speed-Accuracy
help研究问题输入性能、误触控制与交互效率如何设计一种输入方式,支持大型垂直显示屏上的表面操作与中空操作之间的无缝切换?CHI '23SurfAirs: Surface + Mid-air Input for Large Vertical Displays
help研究问题输入性能、误触控制与交互效率SurfAirs控制器在操作稳定性、精确性和用户体验方面如何优于现有的裸手输入技术?CHI '23SurfAirs: Surface + Mid-air Input for Large Vertical Displays
help研究问题输入性能、误触控制与交互效率混合输入设计如何改进多自由度复杂操作和过渡任务的效率?CHI '23SurfAirs: Surface + Mid-air Input for Large Vertical Displays
lightbulb现实痛点输入性能、误触控制与交互效率用户在大型垂直显示屏上交互时,缺乏稳定高效的混合输入方式。CHI '23SurfAirs: Surface + Mid-air Input for Large Vertical Displays
help研究问题输入性能、误触控制与交互效率如何通过输入日志和屏幕录像量化用户的反应性和前瞻性按键输入行为?CHI '22Quantifying Proactive and Reactive Button Input
help研究问题输入性能、误触控制与交互效率用户的按键输入策略(反应性与前瞻性)如何影响游戏表现和界面使用效率?CHI '22Quantifying Proactive and Reactive Button Input
help研究问题输入性能、误触控制与交互效率界面目标设计(如自扩展目标)如何影响用户的输入行为及完成任务的表现?CHI '22Quantifying Proactive and Reactive Button Input
lightbulb现实痛点输入性能、误触控制与交互效率用户与界面交互时,设计师难以辨别其输入策略,从而优化设计。CHI '22Quantifying Proactive and Reactive Button Input
help研究问题输入性能、误触控制与交互效率如何在无物理键盘的情况下复用QWERTY键盘的输入习惯实现高效文本输入?CHI '22TypeAnywhere: A QWERTY-Based Text Entry Solution for Ubiquitous Computing
help研究问题输入性能、误触控制与交互效率指间敲击动作如何被转化为可靠的文本输入?CHI '22TypeAnywhere: A QWERTY-Based Text Entry Solution for Ubiquitous Computing
help研究问题输入性能、误触控制与交互效率基于神经网络的语言模型能在多种表面上提高虚拟输入精度吗?CHI '22TypeAnywhere: A QWERTY-Based Text Entry Solution for Ubiquitous Computing
lightbulb现实痛点输入性能、误触控制与交互效率移动设备缺乏便捷高效又易于学习的文本输入方法。CHI '22TypeAnywhere: A QWERTY-Based Text Entry Solution for Ubiquitous Computing
help研究问题输入性能、误触控制与交互效率在用户使用工具时,手部运动的多重分形特性能否反映用户的熟悉程度和注意力的变化?CHI '22Multifractal Mice: Inferring Task Engagement and Dimensions of Readiness-to-hand from Hand Movement
help研究问题输入性能、误触控制与交互效率高互动性任务是否会提升手部运动的多重分形特性,并与任务参与度相关?CHI '22Multifractal Mice: Inferring Task Engagement and Dimensions of Readiness-to-hand from Hand Movement
help研究问题输入性能、误触控制与交互效率如何利用非侵入性的方法,通过多重分形分析定量测量“在手性”(直觉且熟练使用工具的状态)?CHI '22Multifractal Mice: Inferring Task Engagement and Dimensions of Readiness-to-hand from Hand Movement
lightbulb现实痛点输入性能、误触控制与交互效率设计师难以量化用户与工具的直觉交互效果。CHI '22Multifractal Mice: Inferring Task Engagement and Dimensions of Readiness-to-hand from Hand Movement
help研究问题输入性能、误触控制与交互效率个人化的即时自我肯定内容是否能有效减少智能手机过度使用行为?CHI '22TypeOut: Leveraging Just-in-Time Self-Affirmation for Smartphone Overuse Reduction
help研究问题输入性能、误触控制与交互效率即时干预技术在行为和认知层面如何影响用户的数字健康习惯?CHI '22TypeOut: Leveraging Just-in-Time Self-Affirmation for Smartphone Overuse Reduction
help研究问题输入性能、误触控制与交互效率包括自我肯定任务的干预方法能否超越现有通知或随机输入方法的效果?CHI '22TypeOut: Leveraging Just-in-Time Self-Affirmation for Smartphone Overuse Reduction
lightbulb现实痛点输入性能、误触控制与交互效率用户很难有效减少智能手机过度使用,现有方法效果有限。CHI '22TypeOut: Leveraging Just-in-Time Self-Affirmation for Smartphone Overuse Reduction
help研究问题输入性能、误触控制与交互效率振动增强按钮的信息传输能力是多少?CHI '22Vibration-Augmented Buttons: Information Transmission Capacity and Application to Interaction Design
help研究问题输入性能、误触控制与交互效率振动增强按钮能否优化文本输入的交互性能和用户体验?CHI '22Vibration-Augmented Buttons: Information Transmission Capacity and Application to Interaction Design
help研究问题输入性能、误触控制与交互效率如何设计振动模板以最大程度提升用户识别性能和感知效果?CHI '22Vibration-Augmented Buttons: Information Transmission Capacity and Application to Interaction Design
lightbulb现实痛点输入性能、误触控制与交互效率虚拟按钮缺乏动态触感反馈,影响用户输入效率。CHI '22Vibration-Augmented Buttons: Information Transmission Capacity and Application to Interaction Design
help研究问题输入性能、误触控制与交互效率重复输入和降低输入表达力如何影响用户输入篡改的错误率、学习能力和操作成本?CHI '22More Errors vs. Longer Commands: The Effects of Repetition and Reduced Expressiveness on Input Interpretation Error, Learning, and User Preference
help研究问题输入性能、误触控制与交互效率延长输入序列(例如加倍输入)能否在降低错误率的同时保持用户的接受度?CHI '22More Errors vs. Longer Commands: The Effects of Repetition and Reduced Expressiveness on Input Interpretation Error, Learning, and User Preference
help研究问题输入性能、误触控制与交互效率减少系统解释动作范围是否能有效降低错误率但不显著增加用户学习成本?CHI '22More Errors vs. Longer Commands: The Effects of Repetition and Reduced Expressiveness on Input Interpretation Error, Learning, and User Preference
lightbulb现实痛点输入性能、误触控制与交互效率用户操作的输入误解率高,影响体验和完成任务。CHI '22More Errors vs. Longer Commands: The Effects of Repetition and Reduced Expressiveness on Input Interpretation Error, Learning, and User Preference
help研究问题输入性能、误触控制与交互效率如何将有效高度(He)整合进Fitts'法则模型以改进对于矩形目标的速度-准确性偏差归一化能力?CHI '22Bivariate Effective Width Method to Improve the Normalization Capability for Subjective Speed-accuracy Biases in Rectangular-target Pointing
help研究问题输入性能、误触控制与交互效率在远程和众包实验中,有效宽度(We)和有效高度(He)的加入能否提高模型的拟合与稳定性?CHI '22Bivariate Effective Width Method to Improve the Normalization Capability for Subjective Speed-accuracy Biases in Rectangular-target Pointing
lightbulb现实痛点输入性能、误触控制与交互效率用户界面常见的矩形目标缺乏适用的速度-准确性归一化模型。CHI '22Bivariate Effective Width Method to Improve the Normalization Capability for Subjective Speed-accuracy Biases in Rectangular-target Pointing