一个可切割的多点触摸传感器

Proceedings of the 26th annual ACM symposium on User interface software and technology Pub Date : 2013-10-01 DOI:10.1145/2501988.2502048

Simon Olberding, Nan-Wei Gong, John Tiab, J. Paradiso, Jürgen Steimle

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引用次数: 97

摘要

我们提出切割作为一个新的范例，为特设定制印刷电子元件。作为第一个实例，我们提供了一个印刷电容多点触摸传感器，它可以由最终用户切割来修改其大小和形状。这种非常直接的操作允许最终用户轻松地制作真实世界的物体和表面触摸交互，增强物理原型并增强纸工艺。我们为可打印电路的设计提供了一套技术原则，使传感器对切割，损坏和移除区域更加坚固。这包括新颖的物理拓扑结构和打印前向纠错。一项技术评估比较了不同的拓扑结构，并表明传感器在切割成不同形状时仍能正常工作。

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A cuttable multi-touch sensor

We propose cutting as a novel paradigm for ad-hoc customization of printed electronic components. As a first instantiation, we contribute a printed capacitive multi-touch sensor, which can be cut by the end-user to modify its size and shape. This very direct manipulation allows the end-user to easily make real-world objects and surfaces touch-interactive, to augment physical prototypes and to enhance paper craft. We contribute a set of technical principles for the design of printable circuitry that makes the sensor more robust against cuts, damages and removed areas. This includes novel physical topologies and printed forward error correction. A technical evaluation compares different topologies and shows that the sensor remains functional when cut to a different shape.

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Proceedings of the 26th annual ACM symposium on User interface software and technology

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