Predictive interaction using the delphian desktop

Proceedings of the 18th annual ACM symposium on User interface software and technology Pub Date : 2005-10-23 DOI:10.1145/1095034.1095058

Takeshi Asano, E. Sharlin, Y. Kitamura, Kazuki Takashima, F. Kishino

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引用次数: 131

Abstract

This paper details the design and evaluation of the Delphian Desktop, a mechanism for online spatial prediction of cursor movements in a Windows-Icons-Menus-Pointers (WIMP) environment. Interaction with WIMP-based interfaces often becomes a spatially challenging task when the physical interaction mediators are the common mouse and a high resolution, physically large display screen. These spatial challenges are especially evident in overly crowded Windows desktops. The Delphian Desktop integrates simple yet effective predictive spatial tracking and selection paradigms into ordinary WIMP environments in order to simplify and ease pointing tasks. Predictions are calculated by tracking cursor movements and estimating spatial intentions using a computationally inexpensive online algorithm based on estimating the movement direction and peak velocity. In testing the Delphian Desktop effectively shortened pointing time to faraway icons, and reduced the overall physical distance the mouse (and user hand) had to mechanically traverse.

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使用delphi桌面的预测交互

本文详细介绍了Delphian Desktop的设计和评估，Delphian Desktop是一种在windows -图标-菜单-指针(WIMP)环境下对光标移动进行在线空间预测的机制。当物理交互媒介是普通的鼠标和高分辨率、物理上较大的显示屏时，与基于wimp的界面的交互往往成为一项具有空间挑战性的任务。这些空间挑战在过于拥挤的Windows桌面中尤为明显。Delphian Desktop将简单而有效的预测空间跟踪和选择范例集成到普通的WIMP环境中，以简化和简化指向任务。预测是通过跟踪光标移动和估计空间意图来计算的，使用基于估计移动方向和峰值速度的计算廉价的在线算法。在测试中，Delphian Desktop有效地缩短了指向远处图标的时间，并减少了鼠标(和用户的手)必须机械地移动的整体物理距离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 18th annual ACM symposium on User interface software and technology

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