On the structure of measurement noise in eye-tracking

Coey, Charles A.; Wallot, Sebastian; Richardson, Michael J.; Van Orden, Guy

doi:10.16910/jemr.5.4.5

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On the structure of measurement noise in eye-tracking

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Coey, C. A., Wallot, S., Richardson, M. J., & Van Orden, G. (2012). On the structure of measurement noise in eye-tracking. Journal of Eye Movement Research, 5(4). doi:10.16910/jemr.5.4.5.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002D-346D-5

Abstract

Past research has discovered fractal structure in eye movement variability and interpreted this result as having theoretical ramifications. No research has, however, investigated how properties of the eye-tracking instrument might affect the structure of measurement variability. The current experiment employed fractal and multifractal methods to investigate whether an eye-tracker produced intrinsic random variation and how features of the data recording procedure affected the structure measurement variability. The results of this experiment revealed that the structure of variation from a fake eye was indeed random and uncorrelated in contrast to the fractal structure from a fixated, real human eye. Moreover, the results demonstrated that data-averaging generally changes the structure of variation, introducing spurious structure into eye movement variability.