In this study, we propose a method for estimating fixation distance on the basis of measurements of vergence eye movements. The aim of this approach is to control the lens focus of automatic focusing glasses. To reduce user effort at the time of calibration, the calibration was performed at infinite distance gazing, and the parameters were determined from the premeasured pupillary distance at infinity and iris diameters. To clarify the effectiveness of the proposed method, we conducted evaluation experiments using prototype glasses. The results showed that even participants requiring myopic correction could perform accurate motion vergence movements. Fixation distance estimation showed that, with the eye calibrated at infinite distance gazing, shorter distances could be estimated with an average accuracy exceeding 90%.
[1]
F J Paul,et al.
First person.
,
1980,
Man and medicine.
[2]
Donald H. House,et al.
Measuring gaze depth with an eye tracker during stereoscopic display
,
2011,
APGV '11.
[3]
Michel Millodot Od PhD DOSc Faao FCOptom.
Dictionary of Optometry and Visual Science
,
2000
.
[4]
Hironobu Fujiyoshi,et al.
Real-time Measurement System of Cycloduction Movement Based on Fast Ellipse Detection
,
2007
.
[5]
Jun Rekimoto,et al.
Aided eyes: eye activity sensing for daily life
,
2010,
AH.
[6]
Zhiwei Zhu,et al.
Novel Eye Gaze Tracking Techniques Under Natural Head Movement
,
2007,
IEEE Transactions on Biomedical Engineering.