DIRECT: Making Touch Tracking on Ordinary Surfaces Practical with Hybrid Depth-Infrared Sensing

Proceedings of the 2016 ACM International Conference on Interactive Surfaces and Spaces Pub Date : 2016-11-06 DOI:10.1145/2992154.2992173

R. Xiao, S. Hudson, Chris Harrison

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引用次数: 50

Abstract

Several generations of inexpensive depth cameras have opened the possibility for new kinds of interaction on everyday surfaces. A number of research systems have demonstrated that depth cameras, combined with projectors for output, can turn nearly any reasonably flat surface into a touch-sensitive display. However, even with the latest generation of depth cameras, it has been difficult to obtain sufficient sensing fidelity across a table-sized surface to get much beyond a proof-of-concept demonstration. In this paper we present DIRECT, a novel touch-tracking algorithm that merges depth and infrared imagery captured by a commodity sensor. This yields significantly better touch tracking than from depth data alone, as well as any prior system. Further extending prior work, DIRECT supports arbitrary user orientation and requires no prior calibration or background capture. We describe the implementation of our system and quantify its accuracy through a comparison study of previously published, depth-based touch-tracking algorithms. Results show that our technique boosts touch detection accuracy by 15% and reduces positional error by 55% compared to the next best-performing technique.

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直接:使触摸跟踪在普通表面与混合深度红外传感实用

几代廉价的深度相机为日常表面上的新型互动提供了可能。许多研究系统已经证明，深度相机与投影仪相结合，可以将几乎任何相当平坦的表面变成触敏显示器。然而，即使使用最新一代的深度相机，也很难在桌子大小的表面上获得足够的传感保真度，从而无法进行概念验证演示。在本文中，我们提出了DIRECT，一种新的触摸跟踪算法，它融合了由商品传感器捕获的深度和红外图像。这比单独使用深度数据以及任何先前的系统产生更好的触摸跟踪效果。进一步扩展先前的工作，DIRECT支持任意用户方向，不需要事先校准或背景捕获。我们描述了我们的系统的实现，并通过对先前发表的基于深度的触摸跟踪算法的比较研究来量化其准确性。结果表明，与性能第二好的技术相比，我们的技术将触摸检测精度提高了15%，将位置误差降低了55%。

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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