zPatch:混合电阻/电容纺织品输入

Proceedings of the Twelfth International Conference on Tangible, Embedded, and Embodied Interaction Pub Date : 2018-03-18 DOI:10.1145/3173225.3173242

Paul Strohmeier, Jarrod Knibbe, Sebastian Boring, K. Hornbæk

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引用次数: 40

摘要

我们提出了zPatch:一个用于悬停，触摸和压力输入的纺织品补丁，使用电阻和电容感应。贴片是通过在镀银防撕裂剂之间分层压阻材料，并将其嵌入不导电织物中形成贴片制成的。贴片可以很容易地熨烫到大多数织物上，在任何位置，使易于原型设计或对现有服装进行特别修改。我们提供了构建和编程zPatch的开源资源，并提出了zPatch可实现的传感分辨率的措施。一项基于压力的目标任务表明，在给予适当反馈的情况下，用户可以可靠地击中多达13个级别的压力目标。我们证明了混合传感方法减少了错误激活，并有助于区分手势。最后，我们给出了使用zPatches控制音乐播放器、文本输入和游戏输入的示例应用程序。

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zPatch: Hybrid Resistive/Capacitive eTextile Input

We present zPatch: an eTextile patch for hover, touch, and pressure input, using both resistive and capacitive sensing. zPatches are made by layering a piezo-resistive material between silver-plated ripstop, and embedding it in non-conductive fabric to form a patch. zPatches can be easily ironed onto most fabrics, in any location, enabling easy prototyping or ad hoc modifications of existing garments. We provide open-source resources for building and programming zPatches and present measures of the achieva-ble sensing resolution of a zPatch. A pressure based targeting task demonstrated users could reliably hit pressure tar-gets at up to 13 levels, given appropriate feedback. We demonstrate that the hybrid sensing approach reduces false activations and helps distinguish between gestures. Finally, we present example applications in which we use zPatches for controlling a music player, text entry and gaming input.

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来源期刊

Proceedings of the Twelfth International Conference on Tangible, Embedded, and Embodied Interaction

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