The 'Magic Paradigm' for Programming Smart Connected Devices

Extended Abstracts of the 2019 CHI Conference on Human Factors in Computing Systems Pub Date : 2019-05-02 DOI:10.1145/3290607.3312892

Florian Güldenpfennig, Daniel Dudo, Peter Purgathofer

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Abstract

We are surrounded by an increasing number of smart and networked devices. Today much of this technology is enjoyed by gadget enthusiasts and early adaptors, but in the foreseeable future many people will become dependent on smart devices and Internet of Things (IoT) applications, desired or not. To support people with various levels of computer skills in mastering smart appliances as found, e.g., in smart homes, we propose the 'magic paradigm' for programming networked devices. Our work can be regarded as a playful 'experiment' towards democratizing IoT technology. It explores how we can program interactive behavior by simple pointing gestures using a tangible 'magic wand'. While the 'magic paradigm' removes barriers in programming by waiving conventional coding, it simultaneously raises questions about complexity: what kind of tasks can be addressed by this kind of 'tangible programming', and can people handle it as tasks become complex? We report the design rationale of a prototypical instantiation of the 'magic paradigm' including preliminary findings of a first user trial.

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智能连接设备编程的“魔法范式”

我们被越来越多的智能和联网设备所包围。今天，这种技术大多为小工具爱好者和早期适配器所享受，但在可预见的未来，许多人将变得依赖智能设备和物联网(IoT)应用程序，无论是否需要。为了支持具有不同计算机技能的人掌握智能家电，例如智能家居，我们提出了“魔术范式”来编程联网设备。我们的工作可以被视为一种有趣的“实验”，旨在使物联网技术民主化。它探索了我们如何通过使用有形的“魔术棒”来简单地指向手势来编程交互行为。虽然“神奇范式”通过放弃传统编码消除了编程中的障碍，但它同时提出了关于复杂性的问题:什么样的任务可以通过这种“有形编程”来解决，当任务变得复杂时，人们能处理它吗?我们报告了“神奇范式”原型实例的设计原理，包括首次用户试验的初步结果。

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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Extended Abstracts of the 2019 CHI Conference on Human Factors in Computing Systems

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