Start position strongly influences fixation patterns during face processing: difficulties with eye movements as a measure of information use

• Published in: PloS one Vol. 7; no. 2; p. e31106
• Main Authors: Arizpe, Joseph, Kravitz, Dwight J, Yovel, Galit, Baker, Chris I
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 02.02.2012; Public Library of Science (PLoS)
• Subjects: Biology; Biometry; Cognition & reasoning; Cognitive ability; Data processing; Eye; Eye movements; Eye Movements - physiology; Face; Face recognition; Feature recognition; Fixation; Fixation, Ocular - physiology; Humans; Information processing; Information retrieval; Laboratories; Mental health; Multiculturalism & pluralism; Nose; Pattern recognition; Perceptions; Reading; Saccades; Saccadic eye movements; Studies; Visual Perception - physiology; United States > US; Maryland
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0031106

Fixation patterns are thought to reflect cognitive processing and, thus, index the most informative stimulus features for task performance. During face recognition, initial fixations to the center of the nose have been taken to indicate this location is optimal for information extraction. However, the use of fixations as a marker for information use rests on the assumption that fixation patterns are predominantly determined by stimulus and task, despite the fact that fixations are also influenced by visuo-motor factors. Here, we tested the effect of starting position on fixation patterns during a face recognition task with upright and inverted faces. While we observed differences in fixations between upright and inverted faces, likely reflecting differences in cognitive processing, there was also a strong effect of start position. Over the first five saccades, fixation patterns across start positions were only coarsely similar, with most fixations around the eyes. Importantly, however, the precise fixation pattern was highly dependent on start position with a strong tendency toward facial features furthest from the start position. For example, the often-reported tendency toward the left over right eye was reversed for the left starting position. Further, delayed initial saccades for central versus peripheral start positions suggest greater information processing prior to the initial saccade, highlighting the experimental bias introduced by the commonly used center start position. Finally, the precise effect of face inversion on fixation patterns was also dependent on start position. These results demonstrate the importance of a non-stimulus, non-task factor in determining fixation patterns. The patterns observed likely reflect a complex combination of visuo-motor effects and simple sampling strategies as well as cognitive factors. These different factors are very difficult to tease apart and therefore great caution must be applied when interpreting absolute fixation locations as indicative of information use, particularly at a fine spatial scale.