摩羯座:一个制造管道设计和3D打印电容触摸传感器的交互式对象

Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology Pub Date : 2015-11-05 DOI:10.1145/2807442.2807503

Martin Schmitz, Mohammadreza Khalilbeigi, Matthias Balwierz, Roman Lissermann, M. Mühlhäuser, Jürgen Steimle

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引用次数: 154

摘要

3D打印被广泛用于3D物体的外观和感觉的物理原型。然而，这些原型的交互可能性通常仅限于机械部件或后组装电子设备。在本文中，我们介绍了Capricate，这是一种制造管道，使用户能够轻松设计和3D打印具有嵌入式电容多点触摸传感功能的高度定制对象。该对象使用商品多材料3D打印机一次打印。为了在各种3D可打印表面上实现触摸输入，我们提供了两种设计和打印定制形状嵌入式传感器的技术。通过一系列的实验验证了该制作流程的技术正确性，并通过一组实例应用进行了实际验证。它们展示了Capricate对交互式对象的广泛适用性。

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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Capricate: A Fabrication Pipeline to Design and 3D Print Capacitive Touch Sensors for Interactive Objects

3D printing is widely used to physically prototype the look and feel of 3D objects. Interaction possibilities of these prototypes, however, are often limited to mechanical parts or post-assembled electronics. In this paper, we present Capricate, a fabrication pipeline that enables users to easily design and 3D print highly customized objects that feature embedded capacitive multi-touch sensing. The object is printed in a single pass using a commodity multi-material 3D printer. To enable touch input on a wide variety of 3D printable surfaces, we contribute two techniques for designing and printing embedded sensors of custom shape. The fabrication pipeline is technically validated by a series of experiments and practically validated by a set of example applications. They demonstrate the wide applicability of Capricate for interactive objects.

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Proceedings of the 28th Annual ACM Symposium on User Interface Software & Technology

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