Riechelmann Eva, Huestegge Lynn
Department of Psychology, Würzburg University, Röntgenring 11, 97070, Würzburg, Germany.
Atten Percept Psychophys. 2018 May;80(4):1011-1022. doi: 10.3758/s13414-018-1484-0.
Previous research has shown that spatial compatibility between the data region and the legend of a graph is beneficial for comprehension. However, in multiple graphs, data-legend compatibility can come at the cost of spatial between-graph legend incompatibility. Here we aimed at determining which type of compatibility is most important for performance: global (legend-legend) compatibility between graphs, or local (data-legend) compatibility within graphs. Additionally, a baseline condition (incompatible) was included. Participants chose one out of several line graphs from a multiple panel as the answer to a data-related question. Compatibility type and the number of graphs per panel were varied. Whereas Experiment 1 involved simple graphs with only two lines/legend entries within each graph, Experiment 2 explored more complex graphs. The results indicated that compatibility speeds up comprehension, at least when a certain threshold of graph complexity is exceeded. Furthermore, we found evidence for an advantage of local over global data-legend compatibility under specific conditions. Taken together, the results further support the idea that compatibility principles strongly determine the ease of integration processes in graph comprehension and should thus be considered in multiple-panel design.
先前的研究表明,数据区域与图表图例之间的空间兼容性有利于理解。然而,在多个图表中,数据与图例的兼容性可能会以图表间图例不兼容的空间为代价。在这里,我们旨在确定哪种类型的兼容性对性能最为重要:图表之间的全局(图例与图例)兼容性,还是图表内部的局部(数据与图例)兼容性。此外,还包括一个基线条件(不兼容)。参与者从多个面板中的几个折线图中选择一个作为与数据相关问题的答案。兼容性类型和每个面板中的图表数量有所不同。实验1涉及每个图表中只有两条线/图例条目的简单图表,而实验2则探索了更复杂的图表。结果表明,兼容性至少在超过一定图表复杂度阈值时会加快理解速度。此外,我们发现在特定条件下,局部数据与图例兼容性优于全局兼容性的证据。综上所述,这些结果进一步支持了这样一种观点,即兼容性原则强烈地决定了图表理解中整合过程的难易程度,因此在多面板设计中应予以考虑。