评估基于轮廓的地理空间可视化的互动效果。

Abdullah-Al-Raihan Nayeem, Dongyun Han, William J Tolone, Isaac Cho
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引用次数: 0

摘要

等高线图是探索地形空间特征(如等高线区域之间的距离、方向和表面梯度)的重要工具。从人类认知的角度来看,基于等高线的可视化中的用户交互创造了明显不同的视觉分析方法。因此,人们引入了各种交互方法,以提高系统的可用性,并增强人类对复杂和大规模空间数据探索的认知。然而,在分析任务的背景下,用户交互对等值线图的意义、目的、何时使用以及设计基元都有待研究。因此,需要开展进一步的研究,以更好地理解和量化用户交互在基于轮廓的地理空间可视化中提供的潜力和益处,从而为分析任务提供支持。在本文中,我们介绍了为分析任务设计的基于轮廓的交互式地理空间可视化。我们进行了一项众包用户研究(N=62),以考察交互功能对使用基于轮廓的地理空间可视化进行分析的影响。研究结果表明,在空间数据范围、地图布局、任务复杂性和用户专业知识等方面,交互式功能有助于用户分析和理解数据。最后,我们深入讨论了我们的研究结果,这些结果将作为未来设计和实施交互式功能的指南,以支持基于等高线的地理空间视图上的特定案例分析任务。
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Evaluating Effectiveness of Interactivity in Contour-Based Geospatial Visualizations.

Contour maps are an essential tool for exploring spatial features of the terrain, such as distance, directions, and surface gradient among the contour areas. User interactions in contour-based visualizations create approaches to visual analysis that are noticeably different from the perspective of human cognition. As such, various interactive approaches have been introduced to improve system usability and enhance human cognition for complex and large-scale spatial data exploration. However, what user interaction means for contour maps, its purpose, when to leverage, and design primitives have yet to be investigated in the context of analysis tasks. Therefore, further research is needed to better understand and quantify the potentials and benefits offered by user interactions in contour-based geospatial visualizations designed to support analytical tasks. In this paper, we present a contour-based interactive geospatial visualization designed for analytical tasks. We conducted a crowd-sourced user study (N=62) to examine the impact of interactive features on analysis using contour-based geospatial visualizations. Our results show that the interactive features aid in their data analysis and understanding in terms of spatial data extent, map layout, task complexity, and user expertise. Finally, we discuss our findings in-depth, which will serve as guidelines for future design and implementation of interactive features in support of case-specific analytical tasks on contour-based geospatial views.

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