Composites: A Tangible Interaction Paradigm for Visual Data Analysis in Design Practice

Proceedings of the 2022 International Conference on Advanced Visual Interfaces Pub Date : 2022-06-06 DOI:10.1145/3531073.3531091

Hariharan Subramonyam, Eytan Adar, S. Drucker

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引用次数: 1

Abstract

Conventional tools for visual analytics emphasize a linear production workflow and lack organic “work surfaces.” A better surface would simultaneously support collaborative visualization construction, data and design exploration, and reasoning. To facilitate data-driven design within existing design tools such as card sorting, we introduce Composites, a tangible, augmented reality interface for constructing visualizations on large surfaces. In response to the placement of physical sticky-notes, Composites projects visualizations and data onto large surfaces. Our spatial grammar allows the designer to flexibly construct visualizations through the use of the notes. Similar to affinity-diagramming, the designer can “connect” the physical notes to data, operations, and visualizations which can then be re-arranged based on creative needs. We develop mechanisms (sticky interactions, visual hinting, etc.) to provide guiding feedback to the end-user. By leveraging low-cost technology, Composites extends a working surface to support a broad range of workflows without limiting creative design thinking.

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复合材料:设计实践中视觉数据分析的有形交互范式

传统的可视化分析工具强调线性的生产工作流，缺乏有机的“工作界面”。更好的界面将同时支持协作可视化构建、数据和设计探索以及推理。为了在现有的设计工具(如卡片分类)中促进数据驱动的设计，我们引入了composite，这是一个有形的增强现实界面，用于在大型表面上构建可视化。为了响应物理便利贴的放置，Composites将可视化和数据投影到大的表面上。我们的空间语法允许设计师通过使用笔记灵活地构建可视化。与亲缘关系图类似，设计师可以将物理笔记与数据、操作和可视化“连接”起来，然后根据创造性需求重新排列。我们开发机制(粘性交互、视觉暗示等)，为最终用户提供指导性反馈。通过利用低成本技术，复合材料扩展了工作表面，以支持广泛的工作流程，而不限制创造性的设计思维。

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 2022 International Conference on Advanced Visual Interfaces

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