Smaller Is Better: Drift in Gaze Measurements due to Pupil Dynamics

Camera-based eye trackers are the mainstay of eye movement research and countless practical applications of eye tracking. Recently, a significant impact of changes in pupil size on gaze position as measured by camera-based eye trackers has been reported. In an attempt to improve the understanding of the magnitude and population-wise distribution of the pupil-size dependent shift in reported gaze position, we present the first collection of binocular pupil drift measurements recorded from 39 subjects. The pupil-size dependent shift varied greatly between subjects (from 0.3 to 5.2 deg of deviation, mean 2.6 deg), but also between the eyes of individual subjects (0.1 to 3.0 deg difference, mean difference 1.0 deg). We observed a wide range of drift direction, mostly downward and nasal. We demonstrate two methods to partially compensate the pupil-based shift using separate calibrations in pupil-constricted and pupil-dilated conditions, and evaluate an improved method of compensation based on individual look-up-tables, achieving up to 74% of compensation.

[1]  E. Hess,et al.  Pupil Size in Relation to Mental Activity during Simple Problem-Solving , 1964, Science.

[2]  A. Fletcher Expression of the Emotions in Man and Animals , 1956 .

[3]  Marcus Nyström,et al.  Eye tracker data quality: what it is and how to measure it , 2012, ETRA.

[4]  Harry J. Wyatt,et al.  The human pupil and the use of video-based eyetrackers , 2010, Vision Research.

[5]  Claudio M. Privitera,et al.  The pupil dilation response to visual detection , 2008, Electronic Imaging.

[6]  S. Klein,et al.  Pupil dilation during visual target detection. , 2010, Journal of vision.

[7]  J. Beatty Task-evoked pupillary responses, processing load, and the structure of processing resources. , 1982, Psychological bulletin.

[8]  Paola Binda,et al.  Pupil constrictions to photographs of the sun. , 2013, Journal of vision.

[9]  Jan Drewes,et al.  Shifts in reported gaze position due to changes in pupil size: ground truth and compensation , 2012, ETRA '12.

[10]  M Pong,et al.  Characteristics of the pupillary light reflex in the macaque monkey: metrics. , 2000, Journal of neurophysiology.

[11]  C. Ellis,et al.  The pupillary light reflex in normal subjects. , 1981, The British journal of ophthalmology.

[12]  C. Darwin The Expression of the Emotions in Man and Animals , .

[13]  Brian P. Bailey,et al.  Categories & Subject Descriptors: H.5.2 [Information , 2022 .

[14]  Pernilla Qvarfordt,et al.  Proceedings of the Symposium on Eye Tracking Research and Applications , 2012 .