Commonalities and Differences in Eye Movement Behavior When Exploring Aerial and Terrestrial Scenes

Abstract

Eye movements can provide fast and precise insights into ongoing mechanisms of attention and information processing. In free exploration of natural scenes, it has repeatedly been shown that fixation durations increase over time, while saccade amplitudes decrease. This gaze behavior has been explained as a shift from ambient (global) to focal (local) processing as a means to efficiently understand different environments. In the current study, we analyzed eye movement behavior during the inspection of terrestrial and aerial views of real-world scene images. Our results show that the ambient to focal strategy is preserved across both perspectives. However, there are several perspective-related differences: For aerial views, the first fixation duration is prolonged, showing immediate processing difficulties. Furthermore, fixation durations and saccade amplitudes are longer throughout the overall time of scene exploration, showing continued difficulties that affect both processing of information and image scanning strategies. The temporal and spatial scanning of aerial views is also less similar between observers than for terrestrial scenes, suggesting an inability to use normal scanning patterns. The observed differences in eye movement behavior when inspecting terrestrial and aerial views suggest an increased processing effort for visual information that deviates from our everyday experiences.