Sampling frequency and eye-tracking measures: how speed affects durations, latencies, and more

We use simulations to investigate the effect of sampling frequency on common dependent variables in eye-tracking. We identify two large groups of measures that behave differently, but consistently. The effect of sampling frequency on these two groups of measures are explored and simulations are performed to estimate how much data are required to overcome the uncertainty of a limited sampling frequency. Both simulated and real data are used to estimate the temporal uncertainty of data produced by low sampling frequencies. The aim is to provide easy-to-use heuristics for researchers using eye-tracking. For example, we show how to compensate the uncertainty of a low sampling frequency with more data and postexperiment adjustments of measures. These findings have implications primarily for researchers using naturalistic setups where sampling frequencies typically are low.

[1]  Marcus Nyström,et al.  An adaptive algorithm for fixation, saccade, and glissade detection in eyetracking data , 2010, Behavior research methods.

[2]  M. Juhola,et al.  Effect of sampling frequencies on computation of the maximum velocity of saccadic eye movements , 1985, Biological Cybernetics.

[3]  G. McConkie,et al.  The span of the effective stimulus during a fixation in reading , 1975 .

[4]  J. T. Enright Estimating peak velocity of rapid eye movements from video recordings , 1998 .

[5]  Joseph H. Goldberg,et al.  Identifying fixations and saccades in eye-tracking protocols , 2000, ETRA.

[6]  Robert E. Dewar,et al.  Human factors in traffic safety , 2002 .

[7]  C.E. Shannon,et al.  Communication in the Presence of Noise , 1949, Proceedings of the IRE.

[8]  Paolo Inchingolo,et al.  On the Identification and Analysis of Saccadic Eye Movements-A Quantitative Study of the Processing Procedures , 1985, IEEE Transactions on Biomedical Engineering.

[9]  P. Blignaut Fixation identification: The optimum threshold for a dispersion algorithm , 2009, Attention, perception & psychophysics.

[10]  D. Snodderly,et al.  Saccades and drifts differentially modulate neuronal activity in V1: effects of retinal image motion, position, and extraretinal influences. , 2008, Journal of vision.

[11]  Brian Scassellati,et al.  The incomplete fixation measure , 2008, ETRA.

[12]  K. Rayner Eye movements in reading and information processing: 20 years of research. , 1998, Psychological bulletin.