In-Place-Ink: Toward More Direct Handwriting Interfaces

Proceedings of the 2016 ACM International Conference on Interactive Surfaces and Spaces Pub Date : 2016-11-06 DOI:10.1145/2992154.2992184

Jiseong Gu, Geehyuk Lee

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引用次数: 6

Abstract

An indirect handwriting interface using a separate window is a de facto standard interface in most of major pen computing systems. In this paper, we study the potential of the other less explored handwriting interfaces, which we call In-Place-Ink (IPI) interfaces, where a user writes directly on a target text input area. We first conducted a preliminary experiment to determine the optimal input area dimensions for direct handwriting input, and based on the results designed two IPI interfaces: a discrete IPI (DIPI) interface and a continuous IPI (CIPI) interface. We then conducted a main experiment using form-filling tasks to evaluate their efficiencies and collect user feedback about them in comparison with a conventional indirect writing (IW) interface. The experiment results showed that CIPI required significantly lower completion time for a form-filling task than other interfaces, and was comparable to the IW interface in terms of user preference. We hope our report of designing and evaluating the two IPI interfaces may stimulate future research efforts toward more direct handwriting interfaces.

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就地墨水:走向更直接的手写界面

使用单独窗口的间接手写界面是大多数主要笔计算系统中事实上的标准接口。在本文中，我们研究了其他较少探索的手写界面的潜力，我们称之为原位墨水(IPI)界面，其中用户直接在目标文本输入区域上书写。我们首先进行了初步实验，确定了直接手写输入的最佳输入面积尺寸，并在此基础上设计了两个IPI接口:离散IPI (DIPI)接口和连续IPI (CIPI)接口。然后，我们进行了一个主要的实验，使用表单填充任务来评估它们的效率，并收集有关它们与传统间接书写(IW)界面的用户反馈。实验结果表明，CIPI完成表单填写任务所需的时间明显低于其他界面，并且在用户偏好方面与IW界面相当。我们希望我们设计和评估两个IPI接口的报告可以刺激未来对更直接的手写界面的研究。

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 2016 ACM International Conference on Interactive Surfaces and Spaces

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