Haptic and Visual Comprehension of a 2D Graph Layout Through Physicalisation

Adam Drogemuller, Andrew Cunningham, James A. Walsh, James Baumeister, Ross T. Smith, B. Thomas
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引用次数: 9

Abstract

Data physicalisations afford people the ability to directly interact with data using their hands, potentially achieving a more comprehensive understanding of a dataset. Due to their complex nature, the representation of graphs and networks could benefit from physicalisation, bringing the dataset from the digital world into the physical one. However, no empirical work exists investigating the effects physicalisations have upon comprehension as they relate to graph representations. In this work, we present initial design considerations for graph physicalisations, as well as an empirical study investigating differences in comprehension between virtual and physical representations. We found that participants perceived themselves as being more accurate via touch and sight (visual-haptic) than the graphical-only modality, and perceived a triangle count task as less difficult in visual-haptic than in the graphical-only modality. Additionally, we found that participants significantly preferred interacting with visual-haptic over other conditions, despite no significant effect on task time or error.
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通过物理化实现二维图形布局的触觉和视觉理解
数据物理化使人们能够直接用手与数据交互,从而有可能对数据集有更全面的理解。由于其复杂性,图形和网络的表示可以从物理化中受益,将数据集从数字世界带入物理世界。然而,没有实证工作存在调查物化对理解的影响,因为它们与图形表示有关。在这项工作中,我们提出了图形物理化的初步设计考虑,以及调查虚拟和物理表示之间理解差异的实证研究。我们发现,参与者认为自己通过触觉和视觉(视觉触觉)比纯图形模式更准确,并且认为三角形计数任务在视觉触觉模式下比纯图形模式下更容易。此外,我们发现,尽管对任务时间或错误没有显著影响,但参与者明显更喜欢与视觉-触觉互动。
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